Ämnesområden

This part of ISO 13165 specifies the determination of radium-226 (226Ra) activity concentration in all types of water by coprecipitation followed by gamma-spectrometry (see ISO 18589-3[7]).
The method described is suitable for determination of soluble 226Ra activity concentrations greater than 0,02 Bq l−1 using a sample volume of up to 100 l of any water type.
For water samples smaller than a volume of 1 l, direct gamma-spectrometry can be performed following ISO 10703with a higher detection limit.
NOTE This test method can be adapted to determine other naturally occurring isotopes of radium, such as 223Ra, 224Ra, and 228Ra if the respective ingrowth periods are taken into account.

1.1 Scope of prEN 1993-1-4 This document provides supplementary rules for the structural design of steel structures that extend and modify the application of EN 1993-1-1, EN 1993-1-3, EN 1993-1-5 and EN 1993-1-8 to austenitic, duplex (austenitic-ferritic) and ferritic stainless steels. NOTE 1 Austenitic-ferritic stainless steels are commonly known as duplex stainless steels. The term duplex stainless steel is used in this document. NOTE 2 Information on the durability of stainless steels is given in Annex A. NOTE 3 The execution of stainless steel structures is covered in EN 1090-2 and EN 1090-4. 1.2 Assumptions Unless specifically stated, EN 1990, EN 1991 (all parts), EN 1993-1-1, EN 1993-1-3, EN 1993-1-5 and EN 1993-1-8 apply. The design methods given in prEN 1993-1-4 are applicable if - the execution quality is as specified in EN 1090-2 and EN 1090-4, and - the construction materials and products used are as specified in EN 1993-1-1, EN 1993-1-3, EN 1993 1-5 and EN 1993-1-8, or in the relevant material and product specifications.

(1) EN 1993-1-10 contains design guidance for the selection of steel for fracture toughness and for through thickness properties of welded elements where there is a significant risk of lamellar tearing during fabrication. (2) Section 2 applies to steel grades S 235 to S 690. However section 3 applies to steel grades S 235 to S 460 only. (3) The rules and guidance given in section 2 and 3 assume that the construction will be executed in accordance with EN 1090.

1.1 Scope of prEN 1993-1-6 (1) prEN 1993-1-6 provides rules for the structural design of plated steel structures that have the form of a shell of revolution (axisymmetric shell). (2) This document is applicable to unstiffened fabricated axisymmetric shells formed from isotropic rolled plates using both algebraic and computational procedures, and to stiffened axisymmetric shells with different wall constructions using computational procedures. It also applies to associated circular or annular plates and to beam section rings and stringer stiffeners where they form part of the complete shell structure. The general computational procedures are applicable to all shell forms. (3) This document does not apply to manufactured shells or to shell panels or to elliptical shell forms, except that its computational procedures are applicable to all shell structures. This document does not apply to structures under seismic or other dynamic loading. It does not cover the aspects of leakage of stored liquids or solids. (4) Cylindrical and conical panels are not explicitly covered by this document. However, the provisions of subclause 9.8 can be used provided that appropriate boundary conditions are taken into account. (5) This document defines the characteristic and design values of the resistance of the structure. (6) This document is concerned with the requirements for design against the ultimate limit states of: - plastic failure; - cyclic plasticity; - buckling; - fatigue. (7) Overall equilibrium of the structure (sliding, uplifting, overturning) is not included in this document. Special considerations for specific applications are included in the relevant application parts of EN 1993. (8) Detailed formulae for the simple calculation of unstiffened cylinders, cones and spherical domes are given in the Annexes. (9) Provisions for simple calculations on specific stiffened shell types are given in EN 1993-4-1. (10) This document is intended for application to steel shell structures. Where no standard exists for shell structures made of other metals, including high strength steels, the provisions of this document are applicable provided the appropriate material properties of the metal are taken into account. (11) The provisions of this document are intended to be applied within the temperature ranges defined in the relevant EN 1993 application parts. (12) Where no application part defines a different range, this document applies to structures within the following limits: - design metal temperatures lie within the range −50 °C to +100 °C, except when using the special provisions given in 5.1; - radius to thickness ratios (r/t) within the range 50 to 2 000; - manufactured circular hollow sections according to EN 10210 and EN 10219 are outside the scope of this standard and are covered by EN 1993-1-1. However, if no other provisions are available, the rules of this document are useful for manufactured circular hollow sections. In particular, this document is applicable to the design of manufactured piles (see EN 1993-5) provided the imperfections and tolerance requirements of EN 1993-5 are adopted in place of those specified in prEN 1993-1-6, and where no other standard covers the specific pile geometry. NOTE 1 Experimental and theoretical data relating to manufactured circular hollow sections were not considered when this document was drafted. The application of this document to such structures therefore remains the responsibility of the user. NOTE 2 The stress design rules of this document can be rather conservative if applied to some geometries and loading conditions for relatively thick-walled shells. NOTE 3 Thinner shells than r/t = 2 000 can be treated using these provisions but the provisions have not been verified for such thin shells. ...

1.1 Scope of prEN 1993-1-7 (1) prEN 1993-1-7 provides rules for the structural design of assemblies of unstiffened and stiffened steel plates whose elements are under predominantly distributed transverse loads. (2) prEN 1993-1-7 is applicable to containment structures such as silos, tanks, digesters and lock gates, where the external actions chiefly act transversely on their individual plates or panels. Where a plate or panel under bending is additionally subject to membrane forces that have a significant effect on the resistance, this document covers assessment of the resistance through its computational analysis procedures. (3) prEN 1993-1-7 is applicable to structures with rectangular, trapezoidal or triangular component plate segments, each with one axis of symmetry. (4) prEN 1993-1-7 does not apply to plates or panels where the dominant structural resistance requirement relates to membrane forces in the plates (for these, see EN 1993-1-5). (5) prEN 1993-1-7 does not apply to plates or panels whose curvature (out of flatness) exceeds that defined in 1.1 (14). For such curved plates, see EN 1993-1-6. (6) prEN 1993-1-7 does not apply to circular or annular plates. For such plates, see EN 1993 1-6. (7) prEN 1993-1-7 does not apply to cold-formed sheeting. For such plates, see EN 1993-1-3. (8) This document is only concerned with the requirements for design of plates and plate assemblies against the ultimate limit states of: - plastic failure; - cyclic plasticity; - buckling; - fatigue. (9) Overall equilibrium of the structure (sliding, uplifting, or overturning) is not included in this document. Special considerations for specific applications are available in the relevant applications parts of EN 1993. (10) The rules in this document refer to plate assemblies that are fabricated using unstiffened or stiffened plates or panels. The document is also applicable to the design of individual plates or panels that are predominantly subject to actions transverse to the plane of each plate. Both frictional actions on the plate surface and forces imposed by adjacent components of the plate assembly also induce in-plane actions in each plate. (11) This document gives algebraic rules and guidance to account for bending with small membrane forces in the individual plates or panels. Where an unstiffened or stiffened plates or panels is subject to significant magnitudes of both bending and in-plane forces, the computational analysis procedures of this document apply. (12) Where no application part defines a different range, this document applies to structures within the following limits: - design metal temperatures within the range −50 °C to +100 °C; - the geometry of individual plate segments is limited to rectangular, triangular and trapezoidal shapes with b/t greater than 20, or b1/t greater than 20, as appropriate (see Figure 3.2); - Single plate elements are treated as flat where the deviation from flatness e0 meets the condition (see Figure 9.1). Where this criterion is not met, it is appropriate to treat the plate as a shell panel (see EN 1993-1-6). 1.2 Assumptions (1) Unless specifically stated, the provisions of EN 1990, EN 1991 (all parts) and EN 1993 (all parts) apply. (2) The design methods given in prEN 1993-1-7 are applicable if: - the execution quality is as specified in EN 1090 2, and - the construction materials and products used are as specified in the relevant parts of EN 1993 (all parts), or in the relevant material and product specifications. (3) The provisions in this document apply to materials that satisfy the brittle fracture provisions given in EN 1993-1-4 and EN 1993-1-10. (4) In this document, it is assumed that wind loading, seismic actions and bulk solids flow can, in general, be treated as quasi-static actions. ...

(1) EN 1993-1-9 gives methods for the assessment of fatigue resistance of members, connections and joints subjected to fatigue loading. (2) These methods are derived from fatigue tests with large scale specimens, that include effects of geometrical and structural imperfections from material production and execution (e.g. the effects of tolerances and residual stresses from welding). NOTE 1 For tolerances see EN 1090. The choice of the execution standard may be given in the National Annex, until such time as EN 1090 is published. NOTE 2 The National Annex may give supplementary information on inspection requirements during fabrication. (3) The rules are applicable to structures where execution conforms with EN 1090. NOTE Where appropriate, supplementary requirements are indicated in the detail category tables. (4) The assessment methods given in this part are applicable to all grades of structural steels, stainless steels and unprotected weathering steels except where noted otherwise in the detail category tables. This part only applies to materials which conform to the toughness requirements of EN 1993-1-10. (5) Fatigue assessment methods other than the R-N methods as the notch strain method or fracture mechanics methods are not covered by this part. (6) Post fabrication treatments to improve the fatigue strength other than stress relief are not covered in this part. (7) The fatigue strengths given in this part apply to structures operating under normal atmospheric conditions and with sufficient corrosion protection and regular maintenance. The effect of seawater corrosion is not covered. Microstructural damage from high temperature (> 150 °C) is not covered.

This part of ISO 9241 specifies ergonomic guiding principles which apply to the user requirements, design, and procurement of workstation equipment for using interactive systems with visual displays.
In particular, the general principles and requirements specified in this part of ISO 9241 apply to the standards specifying technical design of furniture and equipment constituting the workplace. They are intended for use by product and workstation designers and implementers.

This International Standard defines a standardised method to evaluate the general thermal comfort of people in a space and the degree of discomfort (thermal dissatisfaction) of people exposed to moderate
thermal environments. It defines the analytical determination and interpretation of thermal comfort using calculation of PMV (predicted mean vote) and PPD (predicted percentage of dissatisfied) and local thermal comfort criteria, giving the environmental conditions considered acceptable for general thermal comfort as well as those representing local discomfort. It is applicable to healthy men and women exposed to indoor environments where thermal comfort is desirable, but where moderate deviations from thermal comfort occur, in the design of new environments or the assessment of existing ones. Although developed specifically for the work environment, it is applicable to other kinds of environment as well. It is intended to be used with reference to ISO 28803, when considering persons with special requirements, such as those with physical disabilities. Ethnic, national or geographical differences need also to be taken into account especially when considering non-conditioned spaces.
Guidance is given in clause 8 and 10 in the guideline ISO DTR XXXXX

This standard is a profile that specifies requirements for testing biometric presentation attack detection (PAD) mechanisms on mobile devices with local biometric recognition and on biometric modules integrated into mobile devices
The profile lists requirements from ISO/IEC 30107-3 specific to mobile devices. It also establishes requirements that are not present in ISO/IEC 30107-3. For each requirement, the profile defines an Approach in PAD Tests for Mobile Devices. For some requirements, numerical values or ranges are
provided in the form of best practices.
This profile is applicable to mobile devices that operate as closed systems with no access to internal results, including mobile devices with local biometric recognition as well as biometric modules for mobile devices.
Out of the scope are the following:
— mobile devices solely with remote biometric recognition
The attacks considered in this document take place at the capture device during the presentation and collection of biometric characteristics. Any other attacks are outside the scope of this document.

This specification details the requirements for use of the Transport Layer Security (TLS) protocol in conjunction with data storage technologies. The requirements set out in this specification are intended to facilitate secure interoperability of storage clients and servers as well as non-storage technologies that may have similar interoperability needs.
This specification is relevant to anyone involved in owning, operating or using data storage devices. This includes senior managers, acquirers of storage product and service, and other non-technical managers or users, in addition to managers and administrators who have specific responsibilities for information security and/or storage security, storage operation, or who are responsible for an organization’s overall security program and security policy development. It is also relevant to anyone involved in the planning, design and implementation of the architectural aspects of storage security.

This document describes the method of determining the total moisture content of a test sample of solid biofuels by drying in an oven and is used when the highest precision is not needed, e.g. for routine production control on site. The method described in ISO 18134 (all parts) is applicable to all solid biofuels. The moisture content of solid biofuels (as received) is always reported based on the total mass of the test sample (wet basis).
NOTE Biomass materials can contain small amounts of volatile organic compounds (VOC) which can evaporate when determining moisture content by oven drying (see References [1] and [2]). The release of such compounds is quite small relative to the overall moisture content as determined by this method and is disregarded in this document.

This document specifies methods for determination of the ash of polyamides, both filled and unfilled.
The general procedures given in ISO 3451-1 are followed. For unfilled materials method A and method D or method C of ISO 3451-1:2019 is used. For filled and glass-fibre reinforced materials method A and method D of ISO 3451-1:2019 is used.
For glass-fibre filled materials containing flame retardant, antimony trioxide, and/or other, volatilizable, additives such as pigment zinc sulfide, a modification is incorporated to remove these as volatile bromine component(s).

This document provides guidance for the definition, implementation, evaluation, and improvement of the measurements necessary to effectively manage innovation activities in an organization. It establishes the fundamentals of innovation operation measurements and guides their application towards four areas
— measurements for establishing and launching innovation initiatives,
— measurements for innovation processes,
— measurements for innovation initiatives,
— measurements of innovation portfolios.
This document is applicable to:
— organizations that are seeking to define and implement an innovation operations measurement approach focused on value creation based upon the appropriate selection and use of indicators and metrics;
— organizations and interested parties seeking to improve the areas of accountability, transparency, and evidence-based assessment of innovation operations;
— customers, and other interested parties, seeking confidence in the organization’s innovation operations management and its results;
— providers of training in innovation operations and measurements, including assessment of and consultancy for achieving results;
— experts in innovation operations evaluation and impact assessment, favoring the use of a harmonized international guidance standard;
— innovation policy makers and program managers who are looking to obtain evidence of progress and desired outcomes of innovation activities supported through public policies and programs.
All the guidance provided within this document is generic and intended to be applicable to:
— all types of organizations regardless of sector or size, whether they be private, public, not-for-profit, governmental or societal;
— all types of innovations (e.g., product, service, process, model, and method) ranging from incremental to radical;
— all types of time horizons, from short-term to long-term evaluation and measurement.

This document provides an overview of the ISO 10303 series of parts.
The ISO 10303 series provides a representation of product information along with the necessary mechanisms and definitions to enable product data to be exchanged. The exchange is among different computer systems and environments associated with the complete product life cycle, including product design, manufacture, use, maintenance, and final disposition of the product.
This document defines the basic principles of product information representation and exchange used in the ISO 10303 series of parts. It specifies the characteristics of the various sets of parts of ISO 10303 and the relationships among them.
The following are within the scope of this document:
— scope statement for the ISO 10303 series as a whole;
— overview of the ISO 10303 series;
— architectures of the ISO 10303 series of parts;
— structure of the ISO 10303 series of parts;
— overview of data specification methods used in the ISO 10303 series of parts;
NOTE This includes the EXPRESS data specification language and graphical presentation of product information models.
— introduction to the sets of parts of ISO 10303:
— integrated resources;
— application interpreted constructs;
— application modules;
— application domain models;
— core model;
— business object models (deprecated);
— application protocols;
— implementation methods;
— usage guides;
— conformance testing methodology and framework;

— abstract test suites;
— scheme for identification of schemas and other information objects defined within the parts of ISO 10303.

This document specifies the basic and design profiles for ISO general purpose metric screw threads (M).
This document is applicable to the metric fastening screw threads.

This document specifies the basic and design profiles for ISO inch screw threads (UN and UNR).
UN applies to both internal and external threads. UNR only applies to external threads. A flat, or rounded root contour, due to the threading process, is specified for UN threads, while only a defined rounded root contour is specified for UNR external threads.
This document is applicable to the inch fastening screw threads.

This document specifies requirements for qualification of welding operators and weld setters.
This document does not apply to personnel:
— who do not control or adjust welding parameters, or
— who do not set up welding equipment.
Annex A gives requirements for the functional knowledge of the welding unit. Annex B gives guidance on necessary knowledge of welding technology. knowledge, a third annex outlines the qualification test certificate.

This document defines the minimum requirements to ensure the interoperability of hydrogen refuelling points, including refuelling protocols that dispense gaseous hydrogen to road vehicles (e.g. Fuel Cell Electric Vehicles) that comply with legislation applicable to such vehicles.
The safety and performance requirements for the entire hydrogen fuelling station, addressed in accordance with existing relevant European and national legislation, are not included in this document.
This document applies to hydrogen refuelling points dispensing gaseous hydrogen to vehicles compliant with UN R134 (Regulation No. 134), UN R134 or Regulation (EC) No 79/2009.
NOTE 1 Guidance on considerations for hydrogen fuelling stations is provided in ISO 19880-1:2020.
NOTE 2 Units used in this document follow SI (International System of Units).

This standard describes the test method covering the procedure for drilling the borehole, inserting the probe, and performing the test in soils and weak rock by axial shearing of the borehole wall. It does not include high pressure testing in hard rock. The test works best in sands, silts, clays and weak rocks, which will maintain open test cavity or which can be held open with drilling fluid. NOTE This document is intended to be used in conjunction with EN 1997-2. EN 1997-2 defines the way ground investigation has to be done to define a reliable ground model including resistance of soils and rocks.

This document specifies a method for the determination of stickies and non-tacky polymeric contaminants present in pulp or paper sheets near-infrared measurement. This document is applicable to recycled pulps and papers.
Sampling of pulp and paper as well as the preparation of handsheets are not part of this document.

This document:
— defines the parameters and specifies the standard conditions for the routine analytical generation and collection of aerosol from electrically Heated Tobacco Products (eHTPs);
— specifies technical requirements for the routine analytical vaping machine for eHTP generation and collection of aerosol, termed as “machine” in this document, complying with the standard conditions stated within clause 4;
— does not specify aerosol trapping nor subsequent sample preparation and analytical method of components in the trapped aerosol or the gas phase;
— may also be used for products other than defined in 3.15 if a specific method references this document.

This document:
— defines the parameters and specifies the standard conditions for the routine analytical generation and collection of aerosol from aerosol Heated Tobacco Products (aHTP);
— specifies technical requirements for the routine analytical vaping machine for aHTP generation and collection of aerosol, termed as “machine” in this document, complying with the standard conditions stated within clause 4;
— does not specify aerosol trapping nor subsequent sample preparation and analytical method of components in the trapped aerosol or the gas phase;
— may also be used for products other than defined in 3.15 if a specific method references this document.

This document:
— defines the parameters and specifies the standard conditions for the routine analytical generation and collection of aerosol from carbon Heated Tobacco Products (cHTP);
— specifies technical requirements for the routine analytical cigarette-smoking machine for cHTP generation and collection of aerosol, termed as “machine” in this document, complying with the standard conditions stated within clause 4;
— does not specify aerosol trapping nor subsequent sample preparation and analytical method of components in the trapped aerosol or the gas phase;
— may also be used for products other than defined in 3.15 if a specific method references this document.

Studies of the emission of volatile organic compounds from unused building products or furnishing in test chambers or cells require proper handling of the product prior to testing, and during the testing period.
This document defines three types of building products or furnishing: solid, liquid and combined. For each type, specifications are given for the sampling procedures, transport conditions, storage, and substrate used that can affect emissions of volatile organic compounds. For individual products, the
preparation of a test specimen for each type is prescribed.
NOTE Depending on the non-homogeneity of the product, it can be necessary to make measurements on different test specimens to determine the specific emission rate.

This document specifies a method for the determination of hexavalent chromium [Cr(VI)] and trivalent chromium [Cr(III)] in water by liquid chromatography with inductively coupled plasma mass spectrometry (LC‑ICP‑MS) after chelating pretreatment.
This method is applicable to the determination of Cr(VI) and Cr(III) dissolved in wastewater, surface water, groundwater, or drinking water from 0,20 μg/l to 500 μg/l of each compound as chromium (Cr) mass. Samples containing Cr at concentrations higher than the working range can be analysed following
appropriate dilution of the sample.

This document specifies the technical requirements to minimise the hazards listed in Clause 4 which can arise during the commissioning, operation and maintenance of container/pallet dollies and loose load trailers when carried out in accordance with the specifications given by the manufacturer or his
authorised representative. It also takes into account some performance requirements recognised as essential by authorities, aircraft and ground support equipment (GSE) manufacturers as well as airlines and handling agencies.
This document applies to container/pallet dollies using ball-mat, inverted cargo castors, or rollers and loose load trailers intended to be used for the transportation of baggage and cargo on airports (examples, see Annex A).
This document does not apply to trailers of similar design as used on public roads, e.g. truck type trailers.
This document does not establish requirements for noise and vibration.
Noise and vibration are dealt with respectively in EN 1915-4 and EN 1915-3.
This document is not applicable to container/pallet dollies and loose load trailers which are manufactured before the date of publication by ISO of this document.
NOTE Certain measurements have been given in imperial units (in parentheses), following the metric measurements, since the containers/pallets to be handled are based mainly on the imperial system.

This International Standard defines the rules for encoding the Animal Identification Code in a specific Memory Bank known as MB 01 in the memory of an ISO 18000-63 transponder (UHF RFID technology).
The structure of the 64-bit Animal Identification Code is in accordance with ISO-11784, guarantying a unique electronic code structure worldwide and across LF and UHF technologies and providing backward compatibility with national databases.
This International Standard does not use EPC coding but ISO coding. To define an ISO 18000–63 transponder as assigned for animal identification only, an Application Family Identifier (AFI) shall be implemented according to ISO 15961. The AFI is used in an ISO 18000-63 transponder to select in the
bulk reading process only those transponders programmed for the dedicated application.
This International Standard does not specify the characteristics of the transmission protocols between transponder and transceiver. These characteristics are the subject of ISO 18000-63.

This document provides a means of classifying the performance of opening windows according to their strength in resisting, where appropriate, racking load, static torsion and their manual operating forces. Special aspects such as those of burglar resistance are not covered. 1)

1) Effects on other criteria, such as air permeability, are not addressed by EN 13115.

This document specifies minimum requirements for design, calculation, examinations and tests of hydraulic powered loader cranes and their mountings on vehicles or static foundations.
This document applies to loader cranes designed to be installed on:
- road vehicles, including trailers, with load carrying capability;
- tractors (road or agricultural), where only a towed trailer has capability to carry goods;
- demountable bodies to be carried by any of the above;
- other types of carriers (e.g. separate loaders, crawlers, rail vehicles, non-seagoing vessels);
- static foundations.
This document also applies to loader cranes equipped with special tools or interchangeable equipment (e.g. grapple, clamshell bucket, pallet clamp, etc.), as specified in the operator’s manual.
This document does not apply to loader cranes used on board sea going vessels or to articulated boom system cranes which are designed as total integral parts of special equipment such as forwarders.
The hazards covered by this document are identified in Clause 4.
This document does not cover hazards related to the lifting of persons.
NOTE The use of cranes for lifting of persons can be subject to specific national regulations.
This document is not applicable to loader cranes manufactured before the publication of this document. For loader cranes designed before the publication of this document, the provisions concerning stress calculations in the version of EN 12999 that was valid at the time of their design, are still applicable.

This document explains concepts and provides approaches to the following aspects of the production of reference materials:
— the assessment of homogeneity;
— the assessment of stability and the management of the risks associated with possible stability issues related to the properties of interest;
— the characterization and value assignment of properties of a reference material;
— the evaluation of uncertainty for certified values;
— the establishment of the metrological traceability of certified property values.
The guidance given supports the implementation of ISO 17034. Other approaches may also be used as long as the requirements of ISO 17034 are fulfilled.
Brief guidance on the need for commutability assessment (6.11) is given in this document, but no technical details are provided. A brief introduction for the characterization of qualitative properties (9.6 to 9.10) is provided together with brief guidance on sampling such materials for homogeneity
tests (Clause 7). However, statistical methods for the assessment of the homogeneity and stability of reference materials for qualitative properties are not covered. This document is also not applicable to multivariate quantities, such as spectral data.
Note ISO 33406 gives more information on the production of reference materials with one or more qualitative property values.

I detta dokument anges en metod för att fastställa graden av ultimat anaerob biologisk nedbrytbarhet och sönderdelning av organiskt avfall när det utsätts för anaerob biologisk process, rötning.

This document gives guidance on how to promote and implement gender equality and women’s empowerment. It offers guidelines for organizations to develop the capabilities to achieve a culture of gender equality and women’s empowerment. The guidelines include the framework, resources, policies,
tools and good practices enabling contextualization, promotion and implementation of gender equality.
This document focuses on the inequality resulting from the gender specific roles assigned to women, girls, men and boys and is applicable to all types of organisations - public or private, regardless of their size, location and field of activity.
This document does not address the specific aspects of relations with labour unions or work councils, countries specific compliance and legal requirements on gender diversity.
NOTE Please refer to 3.5 (now) definition of gender and 3.21 (now) definition of diversity.

This document specifies additional requirements to the product standards given in Annex A for valves, fittings and devices with polymer parts and housings under internal pressure and without external loads intended for installations and apparatus inside buildings conveying water for human consumption.

This standard specifies the performance evaluation test method for corrosion inhibitors used in chemical cleaning of industry equipment. The standard includes instruments, reagents, preparation and pretreatment of the specimen, test conditions, test methods, reports, etc.
This standard is applicable to test the performance for corrosion inhibitors used in chemical cleaning of industry equipment.

This document defines universal and specialized characteristics of health terminological resources that make them fit for the purposes required of various applications. It refers only to terminological resources that are primarily designed to be used for clinical concept representation or to those parts of other terminological resources designed to be used for clinical concept representation.
This document helps users to assess whether a terminology has the characteristics or provides the functions that will support their specified requirements. The focus of this document is to define characteristics and functions of terminological resources in healthcare that can be used to identify different types of them for categorization purposes. Clauses 4 and 5 support categorization according to the characteristics and functions of the terminological resources rather than the name.
NOTE Categorization of healthcare terminological systems according to the name of the system might not be helpful and has caused confusion in the past.
The target groups for this document are:
a) organizations wishing to select terminological systems for use in healthcare information systems;
b) developers of terminological systems;
c) developers of terminology standards;
d) those undertaking independent evaluations/academic reviews of terminological resources;
e) terminology Registration Authorities.
This document contains general characteristics and criteria with which systems can be evaluated.
The following considerations are outside the scope of this document.
— Evaluations of terminological resources.
— Health service requirements for terminological resources and evaluation criteria based on the characteristics and functions.
— The nature and quality of mappings between different terminologies. It is unlikely that a single terminology will meet all the terminology requirements of a healthcare organization: some terminology providers produce mappings to administrative or statistical classifications such as the International Classification of Diseases (ICD). The presence of such maps would be a consideration in the evaluation of the terminology.
— The nature and quality of mappings between different versions of the same terminology. To support data migration and historical retrieval, terminology providers can provide maps between versions of their terminology. The presence of such maps would be a consideration in the evaluation of the terminology.
— Terminology server requirements and techniques and tools for terminology developers.
— Characteristics for computational biology terminology. Progress in medical science and in terminology science will necessitate updating of this document in due course.

This specification contains the key requirements of a quality open source software security assurance program that establishes trust between organizations exchanging software solutions comprised of open source software.

This specification defines the C# programming language and its required library. It defines all the necessary components that are needed to implement this Suite. This Suite does not change if one or more components are updated by a new standard edition. The Suite changes only when new components are added to it and/or existing components are removed from it.

The Assessment Procedures defined in this document are intended to ensure the repeatability,
reproducibility, and objectivity of assessments against the O-TTPS. Though the primary audience for this document is the assessor, an Information Technology (IT) provider who is undergoing assessment or preparing for assessment, may also find this document useful.

This document specifies the minimum requirements for the safety, strength and durability of all types of domestic seating for adults.
It does not apply to ranked seating, seating for non-domestic use, office work chairs, office visitors’ chairs, chairs for educational institutions, outdoor seating and to links for linked seating for which European Standards exist.
It does not include requirements for the durability of upholstery materials, castors, reclining and tilting mechanisms and seat height adjustment mechanisms.
It does not include requirements for electrical safety.
It does not include requirements for the resistance to ageing, degradation, flammability and ergonomics.
The tests are based on use by persons weighing up to 110 kg.
Annex A (normative) describes the seat side-to-side durability test in D-G points.
Annex B (informative) gives rationales for some of the tests referred to in Table 1.
Annex C (normative) describes the test methods for finger entrapment and shear and compression.

This part of ISO 14184 specifies a method for determining the amount of free formaldehyde and formaldehyde extracted partly through hydrolysis by means of an extraction method. The method can be applied to the testing of textile samples in any form.
This method, based on high performance liquid chromatography (HPLC), is selective and not sensitive to coloured extracts and is intended to be used for precise quantification of formaldehyde.

This document is applicable to diffusion-tight pipes, accessories and fittings in ductile cast iron to EN 598 and to cast iron pipe systems.
The document gives requirements on the contact pressure based on a risk assessment and gives a test method that simulates the penetration of a root tip into the sealing gap.

This document describes the specific functional requirements for the transportation of gases (gaseous energy carriers) through service lines in addition to the general functional requirements of EN 12007-1 for:
a) a maximum operating pressure (MOP) up to and including 16 bar;
b) an operating temperature between -20 °C and +40 °C;
c) non-corrosive gases including natural gas, biomethane gas, hydrogen gas and mixtures of these gases where technical evaluation has ensured that operating conditions or constituents or properties of the gas do not affect the safe operation and maintenance of the service line.
It applies to their design, construction, commissioning, decommissioning, operation, maintenance, extension and other associated works including safety and environmental aspects. The service line is the physical asset comprising of pipework from the gas main branch saddle or top tee to the outlet of the distribution system operator’s nominated point(s) of delivery (for example: isolation valve, regulator, meter connection or combination of regulator and isolation valve).
Specific functional requirements for:
— polyethylene pipelines are given in EN 12007-2;
— steel pipelines are given in EN 12007-3;
— polyamide (PA-U) pipelines are given in CEN/TS 12007-6;
— pipework for buildings are given in EN 1775;
— pressure regulating installations are given in EN 12279 or EN 12186;
— pressure testing, commissioning and decommissioning are given in EN 12327;
— safety management system (SMS) and pipeline integrity management system (PIMS) are given in EN 17649 [11].
For guidance on methodology for methane emissions quantification for gas transmission, distribution and storage systems and LNG terminals, see CEN/TS 17874 [8].
This document represents the recommendations at the time of its preparation. It does not apply retrospectively to installations before the publication date unless specifically stated.
This document specifies common basic principles for gas infrastructure. Users of this document are expected to be aware that there can exist more detailed national standards and/or codes of practice in the CEN member countries. This document is intended to be applied in association with these national standards and/or codes of practice setting out the above-mentioned basic principles.
European Legislation/regulations and national legislation is obligatory for all member states. In the event of terms of additional requirements in legislation/regulation than in this document, CEN/TR 13737 (all parts) illustrates these terms.
CEN/TR 13737 gives:
— description of all legislations/regulations applicable in a member state;
— if appropriate, more restrictive national requirements;
— a national contact point for the latest information.

This document provides guidelines for safe fuelling operations of vehicles that use liquefied natural gas (LNG) as a fuel for propulsion, covering the activities and procedures to be followed for safe operation. It provides procedures applicable to different fuelling systems and technologies.
NOTE The document has been based on the consideration that it is the employers’ duty to protect the health, safety and welfare of the employees (as organized in Directive 89/391 EEC).
As such, it is considered to be the responsibility of the driver’s employer to ensure that LNG vehicle drivers are properly trained.

This part of ISO/CIE 11664 specifies the method of calculating the coordinates of the CIE 1976 L*u*v* colour space including correlates of lightness, chroma, saturation and hue. It includes two methods for
calculating Euclidean distances in this space to represent the relative perceived magnitude of colour differences. It also specifies the method of calculating the coordinates of the u′,v′ uniform chromaticity scale diagram.
This part of ISO/CIE 11664 is applicable to tristimulus values calculated using the colour-matching functions of the CIE 1931 standard colorimetric system or the CIE 1964 standard colorimetric system.
This part of ISO/CIE 11664 may be used for the specification of colour stimuli perceived as belonging to a reflecting or transmitting object, where a three-dimensional space more uniform than tristimulus space is required. This includes self-luminous displays, like computer, television and smart-phone
displays, if they are being used to simulate reflecting or transmitting objects and if the stimuli are appropriately normalized. This part of ISO/CIE 11664, as a whole, does not apply to colour stimuli perceived as belonging to an area that appears to be emitting light as a primary light source or that
appears to be specularly reflecting such light. Only the u′,v′ uniform chromaticity scale diagram defined in 4.1 and the correlates of hue and saturation defined in 4.3 apply to such colour stimuli.

This document specifies a method for determination of the content of mercury (Hg) in plant biostimulants using (cold) vapour generation apparatus coupled to an atomic absorption spectrophotometer and a method using a direct amalgamation technique. It is applicable to aqua regia digests prepared according to EN 17701-1:—1.
NOTE It is also possible to use other suitable methods for the determination of mercury described in Annex A if users prove that the method gives the same results as the methods described in this document.
This document is also applicable to the blends of fertilizing products where plant biostimulants are the main part of the blend. Otherwise, the method for the main part of the blend applies.

This document specifies the procedure for the determination and calculation of the dry matter fraction of plant biostimulants for which the results of performed analysis are to be calculated to the dry matter basis.
This document is applicable to the fertilizing product blends belonging to PFC 7 where the EU fertilising product plant biostimulant contained in the blend represents the highest % by mass in the blend. In case of equal shares, the user can apply either this or the standard(s) applicable to the other component product(s).

The claim described in this document concerns the improvement of availability of confined nutrients in the soil or rhizosphere by a plant biostimulant.
This document is aimed primarily at manufacturers, laboratories, researchers, technical centres, companies that will put the products on the market, notifying authorities, notified bodies, and market surveillance authorities.
To be in compliance with this standard, it is important also to follow the Recommendations and Quality Criteria described in the Standard of General Principles EN 17700-1:—1.

This document provides guidance for justifying agronomic nutrient use efficiency claims of plant biostimulants used in agriculture.
To be in compliance with this standard, it is important also to follow the Recommendations and Quality Criteria described in the Standard of General Principles EN 17700-1:—1.
This document is aimed primarily at manufacturers, laboratories, researchers, technical centres, companies that will put the products on the market, notifying authorities, notified bodies, and market surveillance authorities.

This document provides guidance for justifying abiotic stress tolerance claim of plant biostimulants used in agriculture.
This document is aimed primarily at manufacturers, laboratories, companies which will put the products on the market, notifying authorities, notified bodies, and market surveillance authorities.
To be in compliance with this standard, it is important also to follow the Recommendations and Quality Criteria described in the Standard of General Principles EN 17700-1:—1.

This document specifies the terms and definitions referred to in the plant biostimulant field and consists of 6 subclauses:
3.1
Claims
3.2
Terms relating to components
3.3
Terms relating to application method
3.4
Terms relating to sampling
3.5
Terms relating to physical form
3.6
Others terms relating to plant biostimulants

This document specifies sampling plans and methods of representative sampling of plant biostimulants to obtain samples for physical, chemical and biological analysis.
It is applicable to the sampling of batches of plant biostimulants supplied or ready for supply to third parties, as such, or in smaller batches.
It is also applicable to the sampling of blends of fertilizing products where plant biostimulants are main part of the blend. Otherwise, deliverables of sampling relevant for the main part of the blend apply.
This document is intended to be used by manufacturers, buyers and competent authorities to obtain samples prior to transport and supply it to a laboratory for testing.
NOTE This document is applicable to the category of EU fertilizing product (plant biostimulants) in the meaning of Regulation (EU) 2019/1009.

This document provides guidance for justifying quality traits claims of plant biostimulants used in agriculture.
This document is aimed primarily at manufacturers, laboratories, companies which will put the products on the market, notifying authorities, notified bodies, and market surveillance authorities.
To be in compliance with this standard, it is important also to follow the Recommendations and Quality Criteria described in the Standard of General Principles EN 17700-1:—1.

This document specifies the general principles for justifying the product claims for plant biostimulants. It is applicable to all application types of plant biostimulants.
General principles consist of and define all general parameters, requirements and quality criteria, and are intended to be applied in order to assess the efficacy of trials used for claim(s) validation as a result of the use of a plant biostimulant.
This document is aimed primarily at manufacturers, laboratories, researchers, technical centres, companies that will put the products on the market, notifying authorities, notified bodies, and market surveillance authorities.

This document specifies the method for the digestion of different plant biostimulants with aqua regia to enable a subsequent determination of arsenic (As), cadmium (Cd), copper (Cu), chromium (Cr), mercury (Hg), nickel (Ni), lead (Pb) and zinc (Zn). The method can be also applied for determination of other elements. The method is applicable for all solid and/or liquid plant biostimulants.
This document is also applicable to the fertilizing product blends belonging to PFC 7 where the EU fertilising product plant biostimulant contained in the blend represents the highest % by mass in the blend. In case of equal shares, the user can apply either this or the standard(s) applicable to the other component product(s).
The extracts are suitable for analysis using EN 17701-2:—1 (ICP-AES) and EN 17701-3:—2 (Hg analysis).
NOTE Alternatively, inductively coupled plasma mass spectrometry (ICP-MS) can be used for the determination of the elements in the aqua regia digests if the user proves that the method gives the same results.

This document specifies a method for the determination of arsenic (As), cadmium (Cd), copper (Cu), chromium (Cr), lead (Pb), nickel (Ni) and zinc (Zn) in aqua regia plant biostimulant digests using inductively coupled plasma-atomic emission spectrometry (ICP-AES).
This document is applicable to the fertilizing product blends belonging to PFC 7 where the EU fertilising product plant biostimulant contained in the blend represents the highest % by mass in the blend. In case of equal shares, the user can apply either this or the standard(s) applicable to the other component product(s).
This method is applicable to aqua regia digests prepared according to EN 17701-1:—1. The method can be used for the determination of other elements, provided the user has verified the applicability.
NOTE Alternatively, inductively coupled plasma mass spectrometry (ICP-MS) can be used for the determination of the elements in the aqua regia digests if the user proves that the method gives the same results.

This document defines the performance requirements for aluminium pigmented organic coatings to be applied on titanium, titanium alloys, nickel or cobalt based alloys and corrosion resistant steels.
This specification does not cover electrical bonding and lightning strike applications of this coating. Additional qualification tests will be agreed with the OEM upon qualification.
NOTE This coating is not recommended for use on non-corrosion resistant steel fasteners.

This document specifies methods for the reduction and preparation of samples of non-microbial plant biostimulants including those intended for determination of microbial pathogens and sets out the requirements for sample preparation reports. It specifies methods for the preparation of test samples and test portions from laboratory samples of plant biostimulants for subsequent chemical, biological or physical analysis.
It is also applicable to the sample preparation of blends of fertilizing products where plant biostimulants are main part of the blend. Otherwise, deliverables of sample preparation relevant for the main part of the blend apply.
This document does not include methods for the reduction and preparation of samples of microbial plant biostimulants, which will be covered by a different European Standard.
NOTE This document is applicable to the category of EU fertilizing product (plant biostimulants) in the meaning of Regulation (EU) 2019/1009.

This document defines the application method and quality assurance for aluminium pigmented coatings as per EN 4473 which may be applied to fasteners or other parts in titanium, titanium alloys, nickel or cobalt based alloys and corrosion resisting steels.

ISO 17361:2017 specifies the definition of the system, classification, functions, human-machine interface (HMI) and test methods for lane departure warning systems. These are in-vehicle systems that can warn the driver of a lane departure on highways and highway-like roads. The subject system, which may utilize optical, electromagnetic, GPS or other sensor technologies, issues a warning consistent with the visible lane markings. The issuance of warnings at roadway sections having temporary or irregular lane markings (such as roadwork zones) is not within the scope of ISO 17361:2017. ISO 17361:2017 applies to passenger cars, commercial vehicles and buses. The system will not take any automatic action to prevent possible lane departures. Responsibility for the safe operation of the vehicle remains with the driver.

This document specifies Vignole railway rails of 46 kg/m and greater linear mass, for conventional and high speed railway track usage.
Pearlitic steel grades are specified covering a hardness range of 200 HBW to 440 HBW and include non heat treated non alloy steels, non heat treated alloy steels, and heat treated non alloy steels and heat treated alloy steels.
There are 24 rail profiles specified in this document.
Two classes of rail straightness are specified, differing in requirements for straightness, surface flatness and crown profile. Two classes of profile tolerances are specified.

This document specifies a procedure for fatigue strength assessment of rail vehicle structures based on cumulative damage.
It is part of a series of standards that specifies procedures for strength assessments of structures of rail vehicles that are manufactured, operated and maintained according to standards valid for railway applications.
This document is applicable for variable amplitude load data with total number of cycles higher than 10 000 cycles.
An endurance limit approach is outside the scope of this document.
The assessment procedure of the series is restricted to ferrous materials and aluminium.
This document series does not define design load cases.
This document series is not applicable for corrosive conditions or elevated temperature operation in the creep range.
This series of standards is applicable to all kinds of rail vehicles; however it does not define in which cases a fatigue strength assessment using cumulative damage is to be applied.

This document describes the background to methods for the determination of the thermal conductivity and thermal diffusivity of polymeric materials. Different techniques are available for these measurements and some may be better suited than others for a particular type, state and form of material. This document provides a broad overview of these techniques. Standards specific to these techniques, as referenced in this document, are used to carry out the actual test method.

This document provides technical definitions of terms relating to authenticity and fraud when referring to food products. All terms and definitions are in the context of food supply chains, but most of them can also be applied when referring to feed products and the feed supply chain.

This document specifies safety requirements and protective/risk reduction measures, and the means for their verification, for all types and sizes of mobile elevating work platforms (MEWPs) intended for moving a person(s) along with their necessary tools and materials at an elevated work location.
This document also applies to MEWPs designed for applications requiring special access to specific work areas (formerly covered by ISO 16653-1). These MEWPs can be either self-propelled or manually propelled and are used to elevate personnel to a level at which they can place, install, or retrieve objects or material on a routine basis. To facilitate operator access to the work area, the retraction of a portion of the MEWP's work platform guardrail system(s) can be necessary.
This document is intended to serve as a guide for manufacturers, remanufacturers, engineers, and designers of MEWPs to achieve the following objectives:
— elimination or reduction of accidents and personal injuries;
— establishment of criteria for design, manufacture, remanufacture, rebuild/recondition, testing and performance; and
— establishment and understanding by manufacturers, remanufacturers, engineers, and designers of their responsibilities.
The design and manufacturing requirements of this document apply to all MEWPs manufactured on or after the effective date, but it is not applicable to rebuilt or reconditioned MEWPs.
It identifies the hazards arising from the use of MEWPs and describes methods for the elimination or reduction of these hazards.
This document is not applicable to
a) permanently installed personnel-lifting appliances serving defined levels,
b) firefighting and fire rescue appliances (see for example, EN 1777:2010),
c) unguided work cages suspended from lifting appliances (see for example, EN 1808:2015),
d) elevating operator position on rail-dependent storage and retrieval equipment (see for example, EN 528:2021),
e) tail lifts (see for example, EN1756 -1: 2001+ A1: 2008, EN 1756-2:2004+A1: 2009),
f) mast-climbing work platforms (see ISO 16369),
g) fairground equipment,
h) lifting tables with a lifting height of less than 2 m (see, for example, EN 1570-1:2011+A1: 2014),
i) builder's hoists for persons and materials,
j) aircraft ground-support equipment (see, for example, EN -1915 -1: 2013, EN -1915 -2: 2001+ A1: 2009),
k) digger derricks,
l) elevating operator positions on industrial trucks (see, for example, EN ISO 3691-3:2016),

m) elevating operator positions on cranes,
n) certain requirements for insulating aerial devices on a chassis for use in live work on electrical installations. (see Note 1)
o) multi-purpose elevating platform powered industrial trucks (MPEPs) controlled by a single standup riding operator and intended to be used for manually picking and transporting small items at height. (see, for example, ISO XXXXX: 20xx),
p) powered industrial trucks used to pick and place stock or inventory.
Note 1 For requirements for use near live electrical installations, see ISO 16653-2. For requirements for use on live electrical installations, see IEC 61057.
It does not cover hazards arising from
— use in potentially explosive atmospheres,
— use of compressed gases for load-bearing components,
— derailment and runaway of rail-mounted MEWPs,
— work on live electrical systems (See Note 2 and Note 3).
Note 2 Hazards arising from work on live electrical systems are addressed in IEC 61057.
Note 3 For MEWPs that employ aerial devices used for live working, this document will need to be used in conjunction with IEC 61057, taking into consideration the potential exceptions from this document that are specified in IEC 61057.

This document specifies the dimensions of tapered polygonal shanks with flat contact surface (PTI).
These shanks are the male part of the interface to the (in cutting process non-rotating) tool carrier of machine tools (e. g. turret lathes, turning centers).
The draft specifies three types of tool-side interface types, which differ at the face contact. The tool shanks themselves are designed identically for all types.
— Shank type F has two holes for the coolant supply (F = fluid) on the face contact for use in two installation positions (offset by 180°).
— Shank type H has a primary coolant hole for the main supply and a secondary coolant hole for an intermediate tool position on the face contact (H = half). For PTI type H holders an installation position offset by 180° is not possible.
— Shank type A has two holes on the face contact for the primary coolant supply and additional two holes for supplying the tool holder (driven tool) with sealing air (A = air). An installation position offset by 180° is possible. A spring-type straight pin belongs to the holder and avoids incorrect insertion.

This document specifies the dimensions of tapered polygonal receivers with flat contact surface (PTI).
These shanks are the female part of the interface to the (in cutting process non-rotating) tool carrier of machine tools (e. g. turret lathes, turning centers).
The draft specifies four types of machine-side interface types, which differ at the face contact. The bores for receiving the tool shanks themselves are designed identically for all types.
— Receiver type F has one hole for the coolant supply (F = fluid); PTI-F type tool holder can be installed in 0°- and 180°-position.
— Receiver type H has a primary coolant hole for the main supply and a secondary coolant hole for an intermediate tool position on the face contact (H = half). For PTI type H holders an installation position offset by 180° is not possible.
— Receiver type A has one hole on the face contact for the primary coolant supply and one additional hole for supplying the tool holder (driven tool) with sealing air (A = air). Two more bores allow the installation of PTI-A holders with spring-type straight pin in 0°- and 180°-position.
— Receiver type X has a primary coolant hole for the main supply and a secondary coolant hole for an intermediate tool position on the face contact. In addition, the type X receiver has one hole for supplying the tool holder (driven tool) with sealing air and two bores for the 0°- and 180°-position
of the spring-type straight pin of PTI-A holders.

This document specifies the dimensions of couplings for driven tool holders with tapered polygonal shanks with flat contact surface (PTI). These shanks are the male part of the interface to the (in cutting process non-rotating) tool carrier of machine tools (e. g. turret lathes, turning centers).
The draft specifies a coupling type that applies to two of the three tool-side interface types defined in Part 1 (F, A). The tool shanks themselves are designed identically for all types.
— Shank type F has two holes for the coolant supply (F = fluid) on the face contact for use in two installation positions (offset by 180°).
— Shank type A has two holes on the face contact for the primary coolant supply and additional two holes for supplying the tool holder (driven tool) with sealing air (A = air). An installation position offset by 180° is possible. A spring-type straight pin belongs to the holder and avoids incorrect insertion.

This document specifies requirements for the construction and performance of marine magnetic compasses for navigation and steering purposes, binnacles and azimuth reading devices.

Two types of binnacle are specified; the appropriate type for a given vessel is determined by the design of the ship (see Clause 5).

This document applies to liquid-filled magnetic compasses:

— intended for use in ship's navigation and steering in sea navigation;

— having a direct reading system; and

— which can be of the reflecting, projecting or transmitting types.

In the context of this document, a magnetic compass is an instrument consisting of a directional system supported by a single pivot inside a bowl that is completely filled with liquid and supported by gimbals inside or outside the bowl. However, this document also addresses compasses without gimbals; the requirements relating to gimbals do not apply to such compasses.

This document applies to magnetic compasses carried on board:

a) all ships required to carry a standard compass as per SOLAS Chapter V, the Class A magnetic compass;

b) lifeboats and rescue boats as per the IMO Lifesaving Appliances (LSA) Code, fitted with the Class B magnetic compass; and

c) all ships to which a) and b) above do not apply, but which are fitted with a Class A or B magnetic compass.

This document does not apply to:

a) dry card compasses;

b) types of compass designed on principles different from those stated above or not complying with the descriptions given; or

c) hand bearing compasses.

The requirements for the testing and certification of marine magnetic compasses, azimuth reading devices and binnacles are given in Annexes A, B, C, and D. The requirements for the positioning in ships, the determination of safe distances and the deviation adjustment of compasses are given in Annexes E, ...

This document specifies the technical delivery conditions in two test categories for seamless tubes of circular cross section, with specified elevated temperature properties, made of non-alloy and alloy steel. This Part of EN 10216 can also be applied for tubes of non-circular cross section; necessary modification will be agreed at the time of enquiry and order. NOTE Once the reference of this document is published in the Official Journal of the European Union (OJEU) under Directive 2014/68/EU, pressure equipment Directive, presumption of conformity to the Essential Safety Requirements (ESR) of Directive 2014/68/EU is limited to technical data of materials in this document and does not presume adequacy of the material to a specific item of equipment. Consequently, the assessment of the technical data stated in this material standard against the design requirements of this specific item of equipment to verify that the ESRs of the Pressure Equipment Directive are satisfied, needs to be done by the designer of the pressure equipment, taking also into account the subsequent manufacturing processes which could affect properties of the base materials.

This document addresses ultrasonic test systems implementing array probes, for contact technique (with or without wedge) or for immersion technique, with centre frequencies in the range of 0,5 MHz–
10 MHz.
It provides methods and acceptance criteria for determining the compliance of the combined equipment (i.e. instrument, probe, wedge and cables connected). Its purpose is for the verification of the correct operation of the system prior to testing or verification of the absence of degradation of the system.
The methods are not intended to prove the suitability of the system for particular applications but are intended to prove the capability of the complete system (used for an application) to operate correctly
according to the settings used. Tests can be performed on individual ultrasonic beams (for phased array technique, see 9.4.4) or on resulting images (for phased array technique and total focusing technique,
see 9.4.3).
The tests can be limited to the functions that are intended to be used for a certain application.
This document does not cover the calibration of the system for a specific application and the characterization and verification of the mechanical scanning equipment. It is intended that these items will be covered by the test operating procedure.
This document does not address the configurations of probes using the tandem technique.
The characterization of beams, as recommended for dead elements or for more in-depth knowledge of the beams, is presented in Annex A. It is not applicable for signal processing technology using arrays.
NOTE Unless stated otherwise, in this document ‘TFM’ and ‘TFM technique’ refer to the total focusing technique as defined in ISO 23243, and to related techniques, see for example ISO 23865 and ISO 23243.

This document specifies the dimensions of an unnotched impact test piece of sintered metal materials.
The test piece may be obtained directly by pressing and sintering or by machining a sintered part.
This document applies to all sintered metals and alloys, with the exception of hardmetals. However, for certain materials (for example, materials with low porosity or materials with high ductility), it may be more appropriate to use a notched test piece which, in this case, will give results with less scatter. (In
this case, refer to ISO 148-1.)
NOTE For porous sintered materials, the results obtained from impact tests on unnotched specimens according to this standard are not fully comparable with results obtained from tests on solid metals tested on notched specimens.

This document specifies the requirements for establishing, implementing, maintaining and continually improving an information security management system within the context of the organization. This document also includes requirements for the assessment and treatment of information security risks tailored to the needs of the organization. The requirements set out in this document are generic and are intended to be applicable to all organizations, regardless of type, size or nature. Excluding any of the requirements specified in Clauses 4 to 10 is not acceptable when an organization claims conformity to this document.

This document provides practical guidance and examples for establishing, implementing and maintaining an earned value management system based on ISO 21508:2018. The guidance also provides practises for earned value management, as set forth in ISO 21508:2018. The document is applicable to
any organization.
This document is in alignment with ISO 21508:2018, but it does not offer interpretation of the guidance contained in that document.
Further guidance on project, programme and, governance and other related guidance are set out in relevant standards.

This document specifies the general requirements for city service platform for public health emergencies. It also specifies the requirements in terms of data, functions, security and privacy protection.

This part of ISO/IEC 29794, for any or all biometric sample types as necessary, establishes the following:
— terms and definitions that are useful in the specification and use of quality measures;
— purpose and interpretation of biometric quality scores;
— methods for developing biometric sample datasets for the purpose of quality score normalisation;
— format for exchange of quality assessment algorithm results;
— methods for aggregation of quality scores;
— methods for evaluating the efficiency of quality assessment algorithms.
The following are outside the scope of this part of ISO/IEC 29794:
— specification of minimum requirements for sample, module, or system quality scores;
— standardization of quality assessment algorithms;
— assessment of utility of biometric samples or references for human examiners.

This document gives requirements for defining format and content for library objects to support project inception, brief, design, tendering, construction, operations, use and demolition, supporting the development of information throughout the process, in connection with building information modelling
(BIM) and their organization into libraries.
This document:
— establishes requirements for defining template objects, generic objects and product objects in datadriven library and design processes;
— establishes requirements for graphical symbols and other graphic conventions for use on drawings for the built environment, giving principles and definitions for the symbolic and simplified visual presentation of objects. It also describes a rationale of symbolism which establishes rules for the
design of graphical symbols and other graphic conventions, and gives recommendations for the application of those rules and the ways in which symbolism should be used;
— covers purposes for characterizing the shape and measurement of library objects;
— covers purposes for specifying and assessing properties for library objects. It defines the information appropriate for specific uses including specification of the desired outcome (typically by designers and engineers) and the selection of identified products (typically by contractors and
subcontractors). It also gives recommendations for the application of assemblies in integrated BIM working.
This document is intended for all professionals and service providers who produce and use library objects with generic and product-specific data. This group includes, but is not limited to, product manufacturers and suppliers, library authors, designers and engineers, contractors, owners, maintainers and commissioners.

This document gives design rules and requirements in order to ensure proper access, lighting, seating and exit of driver's cabs. The different dimensions are based on the anthropometric data defined in EN 16186-5. The corresponding assessment methods are also included in this document. It covers the following aspects:
— dimension and interior layout;
— door access, steps, floor characteristics;
— seats dimension and clearance;
— interior cab lighting;
— emergency exit;
— marking and labelling.
This document is applicable to vehicles operating on tram networks.

This document describes the main content of maintenance management and the main activities for which maintenance management is responsible.
The document is intended to guide maintenance managers and asset managers in charge of maintenance of items in industrial sectors (both manufacturing and services) and infrastructures/buildings in order to achieve the success factors of the organizations.

This document specifies a thermogravimetric method for the determination of the main constituents of rubber compounds such as elastomer(s), carbon black and mineral filler.
It establishes the “fingerprint” of the tested material. However, the result does not always correspond exactly to the theoretical formula of the rubber.
This method applies to raw or compounded rubbers, vulcanized and unvulcanised, with or without extraction.
This method applies to rubbers with hydrocarbon backbones (NR, BR, SBR, IIR, EPDM, ACM, AEM, etc.) used alone or as mixtures. For the mixtures, the polymer content corresponds to the total rubber, and it is not usually possible to identify individual polymers.
This method applies to rubbers with halogenated hydrocarbon backbones (CR, CSM, FKM, CM, CO, ECO, etc.) or containing nitrogen (NBR, HNBR, NBR/PVC, etc.), as well as to their mixtures. However, these rubbers often form carbonaceous residues which interfere with the analysis. Application of an appropriate procedure minimizes these interferences.
This method also applies to rubbers with a polysiloxane backbone (VMQ, etc.) and to rubbers not listed above.

Detta dokument anger kraven för återkommande kontroll och provning för att verifiera skicket hos gasflaskor och storflaskor som ska återtas i bruk för ytterligare en tidsperiod.
Detta dokument gäller för sömlösa transporterbara gasflaskor av stål och legerat aluminium (enstaka eller som en del av en uppsättning) som är avsedda för trycksatta komprimerade och kondenserade gaser, med vattenvolym från 0,5 l upp till 150 l och för sömlösa transporterbara gasflaskor av stål och legerat aluminium (enstaka eller som en del av en uppsättning) som är avsedda för trycksatta komprimerade och kondenserade gaser, med vattenvolym större än 150 l. Det gäller också, i tillämpliga delar, för gasflaskor med mindre vattenvolym än 0,5 l.
Detta dokument gäller inte för återkommande kontroll och underhåll av acetylenflaskor eller för återkommande kontroll och provning av kompositgasflaskor.
Anm. Om inte annat anges som ett undantag avser ordet ”gasflaska” i detta dokument både gasflaskor och storflaskor.

This document establishes the functional requirements for stations for the injection of biomethane, substitute natural gas (SNG) and hydrogen fuel gas into gas transmission and distribution systems operated with fuel gases (natural gas, biomethane, SNG, hydrogen fuel gas, fuel gas mixtures) in accordance with European technical rules that ensure the interoperability of systems. Figure 1 describes the general approach including all the relevant functions that can be installed in different configurations. This document also applies to refeeding stations that feed such gases back into upstream gas supply networks; see Figure 2. This document represents the state of the art at the time of its preparation. This document does not apply to injection stations operating prior to the publication of this document. This document specifies common basic principles for gas infrastructure. Users of this document are expected to be aware that more detailed national standards and/or codes of practice can exist in the CEN member countries. This document is intended to be applied in association with these national standards and/or codes of practice setting out the above-mentioned basic principles. In the event of terms of additional requirements in national legislation/regulation than in this document, CEN/TR 13737 (all parts) illustrates these terms. CEN/TR 13737 (all parts) gives: - legislation/regulations applicable in a member state; - if appropriate, more restrictive national requirements; - a national contact point for the latest information.

This document establishes specific functional requirements for injection stations for biomethane into gas transmission and distribution systems operated with gases of the second gas family in accordance with EN 437 in addition to the general functional requirements of prEN 17928-1.
This document represents the recommendations at the time of its preparation. This document does not apply to injection stations operating prior to the publication of this document.
This document complements prEN 17928-1 by specifying the technical safety requirements to be observed in respect of the chemical and physical properties of biomethane.
This document specifies common basic principles for gas infrastructure. Users of this document are expected to be aware that more detailed national standards and/or codes of practice can exist in the CEN member countries.
This document is intended to be applied in association with these national standards and/or codes of practice setting out the above-mentioned basic principles.
In the event of terms of additional requirements in national legislation/regulation than in this document, CEN/TR 13737 (all parts) illustrates these terms.
CEN/TR 13737 (all parts) gives:
— legislation/regulations applicable in a member state;
— if appropriate, more restrictive national requirements;
— a national contact point for the latest information.

This document establishes specific functional requirements of stations for the injection of hydrogen fuel gas into transmission and distribution systems for fuel gases (natural gas, biomethane, SNG, hydrogen fuel gas, fuel gas mixtures, etc.; see Figure 1) in accordance with European technical rules that ensure the interoperability of systems in addition to the general functional requirements of prEN 17928-1. This document complements prEN 17928-1 by specifying the technical safety requirements to be observed with respect to the chemical and physical properties of hydrogen fuel gas. It furthermore complements the requirements on pipelines specified in EN 12007-3 and EN 1594 by describing the specific requirements with respect to hydrogen. Additionally, it explains how to handle hydrogen measurements during the course of injection. Requirements for the technical equipment for mixing hydrogen as an additive gas into the gas flow of the gas transmission and distribution system are not covered by this document. However, requirements for the resulting gas mixture are specified in 5.2, which specifies requirements for the operation of the injection station. This document represents the recommendations at the time of its preparation. This document does not apply to injection stations operating prior to the publication of this document. This document specifies common basic principles for gas infrastructure. Users of this document are expected to be aware that more detailed national standards and/or codes of practice can exist in the CEN member countries. This document is intended to be applied in association with these national standards and/or codes of practice setting out the above-mentioned basic principles. In the event of terms of additional requirements in national legislation/regulation than in this document, CEN/TR 13737 (all parts) illustrates these terms. CEN/TR 13737 (all parts) gives: - legislation/regulations applicable in a member state; - if appropriate, more restrictive national requirements; - a national contact point for the latest information.

Detta dokument specificerar kraven som gäller för ett ledningssystem för arbetsmiljö och ger vägledning om hur det ska användas för att göra det möjligt för organisationer att skapa säkra och hälsosamma arbetsplatser
genom att förhindra arbetsrelaterade skador och ohälsa samt genom att proaktivt förbättra sin arbetsmiljöprestanda.
Detta dokument är tillämpligt för organisationer som vill upprätta, införa och underhålla ett ledningssystem för arbetsmiljö i syfte att förbättra arbetsmiljön, eliminera faror och minimera arbetsmiljörisker (inklusive
systembrister), dra fördel av arbetsmiljömöjligheter och hantera avvikelser hos ledningssystem för arbetsmiljö som är kopplade till deras verksamhet.
Detta dokument hjälper organisationer att uppnå avsedda resultat med ledningssystemet för arbetsmiljö.
I överensstämmelse med organisationens arbetsmiljöpolicy, innefattar avsedda resultat med ledningssystemet för arbetsmiljö:
a) ständig förbättring av arbetsmiljöprestanda;
b) uppfyllande av tillämpliga legala krav och andra krav;
c) att arbetsmiljömål uppnås.
Detta dokument är tillämpligt på alla organisationer, oavsett storlek, typ och verksamhet. Det är tillämpligt på arbetsmiljörisker som organisationen kan styra över, med hänsyn till faktorer och förutsättningar som organisationen bedriver sin verksamhet under samt dess arbetstagares och andra intressenters behov och förväntningar.
Detta dokument innehåller inga specifika kriterier för arbetsmiljöprestanda och är inte föreskrivande vad gäller utformningen av ett ledningssystem för arbetsmiljö.
Detta dokument gör det möjligt för en organisation att genom sitt ledningssystem för arbetsmiljö, integrera andra hälso- och säkerhetsaspekter, till exempel arbetstagarnas välbefinnande.
Detta dokument tar inte upp frågor som produktsäkerhet, egendomsskada eller miljöpåverkan, utöver riskerna för arbetstagare och andra intressenter.
Hela eller delar av detta dokument kan användas för att systematiskt förbättra arbetsmiljöledningen.
Anspråk på överensstämmelse med denna standard kan dock inte accepteras om inte alla dess krav införts i organisationens ledningssystem för arbetsmiljö och uppfylls utan undantag.

This document is applicable to slow heat release appliances for solid fuel (freestanding hand fuelled intermittent burning slow heat release appliances (SHRA) having heat storage capacity such that they can provide heat and release it for an extended period after the fire has gone out).
The intended use of the appliances is space heating in residential buildings. They can be fitted with a boiler or heat exchanger (integral part of the appliance containing water to be heated up) for the supply of hot water for central heating systems.
These slow heat release appliances may be supplied either as an assembled appliance or as a pre-designed unit consisting of prefabricated components designed to be built on site in accordance with the-specified assembly instructions.
These appliances can burn one or more types of the following solid fuels as specified:
— wood logs;
— compressed untreated wood;
— wood pellets;
— lignite briquettes;
— solid mineral fuels;
— peat briquettes.
This document is not applicable to:
— mechanically fed appliances
— appliances with fan assisted combustion air
— one off installations
This document specifies procedures for assessment and verification of constancy of performance (AVCP) of characteristics of solid fuel burning slow heat release appliances.

This International Standard specifies the apparatus, the test solutions, and the procedure to be used in conducting the electrochemical tests for 1) assessment of the Fick's diffusion parameter for protective coating on metallic materials and 2) for the estimation of the galvanic corrosion rates with the conversion of ISO 21746 coating-free sample data.

This International Standard applies to the measurement of crack tip position and crack propagation on the bonding surface of carbon fibre reinforced plastic (CFRPs) and metal assemblies bonded panels.
This document does not apply to the visualization measurement of strain distribution or defects during load application to specimens.

This document specifies test methods and requirements for the strength and durability of all types of extension elements and their components for all fields of application, except table extensions.
The tests consist of the application of loads, forces and velocities simulating normal functional use, as well as misuse, that can reasonably be expected to occur.
With the exception of the corrosion test in 6.4, the tests are designed to evaluate properties without regard to materials, design/construction or manufacturing processes.
The strength and durability tests only relate to the extension elements and the parts used for the attachment, e.g. screws.
The strength and durability tests are carried out in a test frame with specified properties. The test results can only be used as a guide to the performance of a piece of furniture.
The test results are only valid for the extension element tested. These results may be used to represent the performance of production models provided that the tested model is representative of the production model.
Ageing and influences of heat and humidity are not included.

This document specifies safety requirements and their verification for the design and construction of power take-off (PTO) drive shafts and their guards linking a tractor or self-propelled machinery to the first fixed bearing of recipient machinery. It describes methods for the elimination or reduction of risks which need specific requirements including such risks arising from misuse, reasonably foreseeable by the manufacturer. It is applicable only to those PTO drive shafts and guards mechanically linked to the shaft by at least two bearings.
In addition, it specifies the type of information on safe working practices to be provided by the manufacturer.
This document does not deal with:
- the guards totally covering, but not mechanically linked to, the PTO drive shaft;
- the mechanical characteristics of PTO drive shafts, overrun devices and torque limiters;
- general hazards which are dealt with in EN ISO 4254-1:2015 (see introduction).
Environmental aspects have not been considered in this document.
This document is not applicable to PTO drive shafts and their guards which are manufactured before the date of publication of this document by CEN.

1.1 General
This document applies to Mechatronic door furniture (MDF) fitted on the door set which gives the possibility to control the locking and/or release part through an electronic authorization means. This can be operable by credentials (i.e. card, code, biometric).
The MDF according to this document is combined with locks according to EN 12209, EN 14846, prEN 15685 or may be a part of an emergency exit device according to EN 179, EN 1125 or EN 13637.
The MDF may be standalone or linkable to an external control system.
The document would allow classifying the MDF upon several characteristics such as category of use, durability, environmental, security, and type of operating device.
The suitability of the MDF for use on fire or smoke-door assemblies is determined by fire resistance tests conducted in addition to the performance testing specified by this document.
1.2 Exclusions
This document does not cover:
- mechatronic cylinders according to EN 15684;
- electromechanical operated locks and striking plates according to EN 14846.

This document specifies the mechanical properties of wrought aluminium and wrought aluminium alloy finstock.
The chemical composition limits of these materials are specified in EN 573-3, unless otherwise agreed between supplier and purchaser.
The designations of wrought aluminium and wrought aluminium alloys and the temper designations used in this document are specified in EN 573-3, and the temper designations are defined in EN 515.

This document specifies a method for the determination of linear shrinkage in the radial and tangential directions of wood.

This document specifies methods for the determination of volumetric shrinkage of wood.

The design method provided in this standard addresses vibrations induced by walking action of occupants and covers the following timber floor systems:
i) Light frame floors built with timber joists spaced at regular distance and a subfloor, and
ii) Mass timber floors built with mass timber panels such as cross laminated timber.
The standard consists of three elements: 1) a baseline vibrational serviceability design criterion for timber floors using fundamental natural frequency and 1 kN static point load deflection as the design
parameters; 2) equations for calculating the design parameters; and 3) a guideline for the design values of the physical and mechanical properties of floor components.
The design method is based on the assumption that the floor system has a single span and simple support conditions.
The standard allows individual jurisdictions to develop their own performance requirement levels following the guidelines and procedure described in ISO/TR 21136, and for adoption of other models to calculate the fundamental natural frequency and 1 kN static deflection.

This International Standard gives methods of determination of duration of load and creep factors under bending actions at ambient temperatures for a defined population of structural timber products such as solid timber, LVL, OSB, plywood, particleboard, I-beams calculated from test values.
It presents methods for:
a) Determination of duration of load and creep factors for new timber products,
b) Establishing whether a previously defined set of duration of load and creep factors can be applied to a tested product, and
c) An optional method for establishment of sensitivity of duration of load and creep factors to changes in environmental conditions
NOTE 1 This Standard is intended to apply to wood-based products for which a duration of load factor or a creep factor is used in design.
NOTE 2 The effect of elevated temperature on the duration of load factor and creep factor that is derived using these methods for use with timber products may need additional consideration.

This document specifies a procedure for determination of accelerated formaldehyde release from uncoated and coated wood-based panels using the gas analysis method. The procedure is also suitable for the testing of other materials (e.g. edge bands, floor coverings, foams, foils, laminated wood
products, veneered wood products, coated wood products).

This document specifies procedures suitable for the analysis of data which, when converted into logarithms of the values, have either a normal or a skewed distribution. It is intended for use with the test methods and referring standards for glass-reinforced thermosetting plastics (GRP) pipes or fittings
for the analysis of properties as a function of time. However, it can be used for the analysis of other data.
Depending upon the nature of the data, two methods are specified. The extrapolation using these techniques typically extends the trend from data gathered over a period of approximately 10 000 h to a prediction of the property at 50 years, which is the typical maximum extrapolation time.
This document only addresses the analysis of data. The test procedures to collect the data, the number of samples required and the time period over which data are collected are covered by the referring standards and/or test methods. Clause 6 discusses how the data analysis methods are applied to
product testing and design.

This document specifies methods for measuring the sound pressure level from service equipment in a building or from other sound sources inside or outside of the building. This document specifically covers measurements of sanitary installations, mechanical ventilation, heating and cooling service
equipment, lifts, rubbish chutes, boilers, blowers, pumps and other auxiliary service equipment, and motor driven car park doors; however, it can also be applied to measurements of equipment or activities in in or nearby a building. To include noise from sport facilities, pubs etcetera inside or outside the
building. The measurement of noise from external sound sources generating ground-borne noise are not included in this standard.
The methods are suitable for rooms with volumes of approximately 300 m3 or less e.g. in dwellings, hotels, schools, offices and hospitals. The standard is generally not intended for measurements in large auditoriums and concert halls, nor where the source is located at a distance from the building
where sound propagation may change with weather conditions. However, the operating conditions and operating cycles in Annex B can be used in such cases.
The service equipment sound pressure level is determined as the maximum A-weighted and optionally C-weighted sound pressure level occurring during a specified operation cycle of the service equipment under test, or as the equivalent continuous sound pressure level in one–third–octave bands determined with a specified integration time. A-weighted and C-weighted values are calculated from one–third– octave–band measurements or optionally from octave–band measurements.

This document specifies two complementary test methods to assess the chemical reactivity of a pozzolanic or latent hydraulic cement constituent by measurements of heat of hydration (see Clause 5 and 8.3 Method A, Heat of Hydration) or bound water content (see Clause 5 and 8.4 Method B, Bound Water Content) of hydrated pastes composed of the cement constituent, calcium hydroxide, calcium carbonate, potassium sulfate, and potassium hydroxide cured at 40 °C for 72 h and 168 h (3 days and 7 days).
These two test methods do not distinguish between latent hydraulic and pozzolanic reactivity. Therefore, these methods are used for measuring the chemical reactivity of following cement constituents as specified under EN 197-1 and EN 197-5: S, D, P, Q, V, W and T.
These test methods are used in complement with the current specifications on cement constituent reactivity given by EN 197-1 and EN 197-5, i.e. the reactive silicon dioxide content measured according to EN 196-2 for cement constituents P, Q and V; the compressive strength of specified test mortars determined according to EN 196-1 for cement constituents W and T, and the pozzolanicity of pozzolanic cements according to EN 196-5 for CEM IV type cements according to EN 197-1.
The test methods are used for qualification purposes if the cement constituents are tested at the fineness of the intended use.
NOTE In case the test methods are used for purposes of comparison of intrinsic reactivity, cement constituents are tested at similar fineness, where possible.
The test methods are also used for testing other new constituents that are latent hydraulic or pozzolanic and that are not covered by EN 197-1 and EN 197-5. However, for such new constituents the validity of the underlying correlations with strength development have not been verified; in consequence the test results can only be used for informative and indicative purposes.
Furthermore, these test methods are used in manufacturing control of cement constituents for assessing their latent hydraulic or pozzolanic reactivity.

This document specifies requirements and test methods for materials, construction and performance of components intended for use in powder firefighting systems complying with EN 12416-2:2001+A1:2007.
The components covered are as follows:
— powder containers
— expellant gas container assemblies
— pressure regulators and gauges
— actuators
— main isolating valves and selector valves
— nozzles.
The components are suitable for powder firefighting systems for general use in buildings and other construction works. In areas with a risk of explosion, earthquake zones, extreme environmental conditions e.g. marine, offshore, mining or aircraft additional considerations apply.
This document covers components for use in powder extinguishing systems complying with EN 12416-2:2001+A1:2007. It does not cover, for example, pipes and fittings which are covered by more general standards for which requirements and recommendations are given in EN 12416-2:2001+A1:2007. Nor does it cover fire detectors or electrical control and indicating equipment.

This document specifies the safety requirements for the integration of machinery into a system. It gives requirements and recommendations for inherently safe design, safeguarding and complementary protective measures, and information for use of an integrated manufacturing system (IMS).
NOTE In the context of this document, the term system refers to an IMS which can also collaborate with other domains within the supply chain(s) of an enterprise (e.g., smart manufacturing). See also 5.2.2.
This document is not intended to cover safety aspects of individual machines and equipment that can be covered by standards specific to those machines and equipment. Therefore, it deals only with those safety aspects for the safety-relevant interconnection of the machines and components. Where
component machines of an integrated machinery system are operated separately or individually, the safety requirements of the relevant safety standards for these machines and equipment apply.
This document is also applicable when a modification of an existing IMS results in a new configuration, function, capability or location.
This document deals with the significant hazards, hazardous situations or hazardous events when used as intended and under specified conditions of misuse which are reasonably foreseeable. This document also provides requirements for IMS used in applications as following, but does not cover the hazards related to
— underground use,
— nuclear environments,
— potentially explosive environments,
— hazards due to the lifting of persons,
— use of IMS in environments with hazardous ionizing and non-ionizing radiation levels,
— when the public have access.
Emission of acoustic noise could be identified to be a significant hazard but the reduction of noise emissions is not covered in this document.

This document specifies the safety requirements for the integration of machinery into a system. It gives requirements and recommendations for inherently safe design, safeguarding and complementary
protective measures, and information for use of an integrated manufacturing system (IMS).
NOTE In the context of this document, the term system refers to an IMS which can also collaborate with other domains within the supply chain(s) of an enterprise (e.g., smart manufacturing). See also 5.2.2.
This document is not intended to cover safety aspects of individual machines and equipment that can be covered by standards specific to those machines and equipment. Therefore, it deals only with those safety aspects for the safety-relevant interconnection of the machines and components. Where
component machines of an integrated machinery system are operated separately or individually, the safety requirements of the relevant safety standards for these machines and equipment apply.
This document is also applicable when a modification of an existing IMS results in a new configuration, function, capability or location.
This document deals with the significant hazards, hazardous situations or hazardous events when used as intended and under specified conditions of misuse which are reasonably foreseeable. This document also provides requirements for IMS used in applications as following, but does not cover the hazards related to
— underground use,
— nuclear environments,
— potentially explosive environments,
— hazards due to the lifting of persons,
— use of IMS in environments with hazardous ionizing and non-ionizing radiation levels,
— when the public have access.
Emission of acoustic noise could be identified to be a significant hazard but the reduction of noise emissions is not covered in this document.

This document specifies methods for testing optical properties, other than wavefront aberrations,[1] of microlenses in microlens arrays. It is applicable to microlens arrays with very small lenses formed on one or more surfaces of a common substrate and to graded-index microlenses.

This document specifies methods for testing geometrical properties of microlenses in microlens arrays.
It is applicable to microlens arrays with very small lenses formed on one or more surfaces of a common substrate and to graded-index microlenses.

This document establishes the vocabulary of accessories and components of industrial trucks (hereafter referred to as trucks) as defined in ISO 5053‑1.
For the purposes of this document, both the terms accessories and components are describing parts and assemblies which are, or can be, fitted to a truck.
NOTE Accessories and components of typical industrial trucks are given in Annex B.

This document specifies requirements for cords and drawstrings on clothing to minimize the risk of accidental strangulation or entrapment, for children up to the age of 14 years. This includes disguise costumes1 and ski apparel.
This document does not apply to the following (see Annex C for rationale):
a) child use and care articles, for example bibs, nappies and soother holders; see C.1, a)
b) shoes, boots and similar footwear; see C.1, b)
c) community face coverings; see C.1, c)
The following are also out of scope however attention is drawn to Annex C for further information, gloves, hats, bonnets and scarves; see C.1, d)
d) neckties and bow ties which encircle the neck not attached to the shirt or blouse; see C.1, e)
e) removable belts, with the exception of tied belts which are within scope; see C.1, f)
f) removable braces (suspenders); see C.1, f)
g) religious clothing; see C.1, g)
h) celebratory clothing such as that worn at civil or religious ceremonies, national or regional festivals provided this is worn for limited periods and under supervision; see C.1, h)
i) specialist sportswear and activity wear generally worn for limited periods and under supervision, for example rugby shorts, wet suits, and dancewear, except where those garments are commonly worn as day wear or night wear; see C.1, i)
j) theatrical costumes used for theatrical performances; see C.1, j)
k) aprons intended to be worn over day wear, for limited periods and under supervision, to protect clothing from soiling during activities such as painting, cooking, or during meal times; see C.1, k), and
l) bags and purses; see C.1, l).

This document specifies a method, using hypochlorite, to determine the mass percentage of protein fibre, after removal of non-fibrous matter, in textiles made of mixtures of certain non-protein fibres and certain protein fibres, as follows:
— wool, other animal-hair (such as cashmere, mohair), silk, protein,
with
— cotton, cupro, viscose, modal, acrylic, chlorofibres, polyamide, polyester, polypropylene, glass, elastane, elastomultiester, elastolefin, melamine and polypropylene/polyamide bicomponent.

This document specifies methods for testing wavefront aberrations for microlenses within microlens arrays. It is applicable to microlens arrays with very small lenses formed inside or on one or more surfaces of a common substrate.

This document specifies general rules to determine the concentration of microorganisms present in plant biostimulants. The method is applicable to microbial plant biostimulants for verifying that the concentration of microorganisms does not exceed the respective limits outlined in the EU Regulation on Fertilising Products [1]. This horizontal method might not be appropriate in every detail for certain products. In this case, it is necessary to refer to the methodology of specific determination and quantification of the microorganisms.

This document specifies methods for the chemical analysis of zirconium oxide powders used as the raw material for fine ceramics. It stipulates the determination methods of the zirconium, aluminium, barium, calcium, cerium, cobalt, gadolinium, hafnium, iron, magnesium, potassium, silicon, sodium, strontium, titanium and yttrium contents in zirconium oxide powders for fine ceramics. The test sample is decomposed by acid pressure decomposition or alkali fusion. Contents of zirconium and yttrium are determined by using either a precipitation and gravimetric method or an inductively coupled plasma-optical emission spectrometry (ICP-OES) method. Contents of aluminium, barium, calcium, cerium, cobalt, gadolinium, hafnium, iron, magnesium, potassium, silicon, sodium, strontium and titanium are determined by using an ICP-OES method.

This document specifies a method of testing the fire resistance of "fire-proof" electrical cables.

This document specifies the methods to be used for the determination of quantity of solid and liquid forms of plant biostimulants in packages, containers or in bulk. This document is not applicable to the quantity determination of: soil improvers, growing media, organic and organo-mineral fertilizers and fertilizing product blends whose main constituent is a growing media or soil improver. The method for quantity determination for these products is given in EN 15761, EN 15238 and EN 12580.

This document specifies the general characteristics, conditions for qualification, acceptance and quality assurance for a fibre optic cable with a 62,5 µm/125 µm Graded Index fibre nominal, 1,8 mm outside diameter and of semi-loose buffer construction.

This document provides a method for verifying that the pathogen Shigella spp. is not present in microbial plant biostimulants in a concentration that exceeds the respective limits outlined in the EU Regulation on Fertilising Products. The detection method for Shigella pathogens is not sensitive and quantification is rarely performed. Detection is usually performed using an enrichment medium followed by subculturing onto a variety of selective media.

This document provides a method for verifying that the pathogen Staphylococcus aureus is absent from microbial plant biostimulants according to the limits outlined in the EU Regulation on Fertilising Products [2].

This document provides the methodology for the enumeration and determination of Azospirillum spp. in Plant Biostimulant products in accordance with the Regulation (EU) 2019/1009 of the European Parliament and of the Council [1].

This document provides a method for the detection of Listeria monocytogenes in microbial plant biostimulants for verifying that the content of this human pathogen agrees with the respective limits outlined in the EU Regulation on Fertilising Products [1].

This document describes a method for the detection of Salmonella spp. in biostimulants of the following Product Function Categories (PFCs) and Component Material Category (CMC) of EU fertilizing products, as described in Regulation (EU) 2019/1009 of the European Parliament and of the Council [1]: - PFC 6(A): Microbial plant biostimulant; - PFC 6(B): Non-microbial plant biostimulant; - CMC 7: Microorganisms. It requires three successive steps: a selective enrichment, an isolation on a chromogenic agar, and if positive a confirmation with a serological test (and if required, a selective media).

This document provides the methodology for the enumeration and determination of Rhizobium sp., Mesorhizobium sp., Ensifer sp., or Bradyrhizobium sp. in plant biostimulant products in accordance with Regulation (EU) 2019/1009 of the European Parliament and of the Council [1].

This document provides a horizontal method for enumeration of microorganisms that are able to grow and form colonies in a solid medium after anaerobic incubation at 30 °C. The method is applicable to microbial plant biostimulants, except those composed of aerobic bacteria, for verifying that the concentration of anaerobes does not exceed the respective limits outlined in the EU Fertilizers Regulation [1]. This method does not apply to the microbiological monitoring of the environment in which microbial plant biostimulants are manufactured. No information about potential human pathogens can be inferred from anaerobic plate counts.

This document specifies a horizontal method for the detection of enteropathogenic Vibrio spp., which causes human illness in or via the intestinal tract [1]. The species detectable by the methods specified include Vibrio parahaemolyticus, Vibrio cholerae and Vibrio vulnificus. It is applicable to the following: - microbial plant biostimulants. NOTE 1 The World Health Organization (WHO) has identified that V. parahaemolyticus, V. cholerae and V. vulnificus are the major contaminants of Vibrio spp. [1]. NOTE 2 For confirmation, it is possible to use PCR tests; in this case the laboratory must validate the procedure and data generated.

This standard was developed to provide a horizontal method for enumeration and genera/species determination [1], [2], [3] of mycorrhizal fungi in microbial plant biostimulant in accordance with the Regulation (EU) 2019/1009 of the European Parliament and of the Council.

This document specifies a method for laboratory measurement of the pH value in liquid microbial plant biostimulants, using pH electrodes with a glass membrane. Plant biostimulants other than microbial plant biostimulants are excluded from the scope of this document because there is no essential requirement in the Regulation [1] for measuring the pH of non-microbial plant biostimulants.

This methodology has been developed to determine enterococci in biostimulants as a single microorganism component or in a mixture with other microorganisms. This document is not applicable to mineral fertilizers that are defined as complementary feeding stuffs composed mainly of minerals and containing at least 40 % crude ash (Council Directive 79/373/EEC) [3].

This document gives general guidelines for the detection and identification of the specified microorganism Escherichia coli in technical and formulated biostimulant products, both in liquid and solid state, and also the horizontal method for the enumeration of ß-glucuronidase-positive Escherichia coli in plant biostimulants products (both in liquid and solid state). The qualitative method described in this document is based on the detection of Escherichia coli in a non-selective liquid medium (enrichment broth), followed by isolation on a selective agar medium. Other methods can be appropriate, depending on the level of detection required. NOTE For the detection of Escherichia coli, subcultures can be performed on non-selective culture media followed by suitable identification steps (e.g. using identification kits). The quantitative method described in this document uses a colony-count technique at 44 °C on a solid medium containing a chromogenic ingredient for detection of the enzyme ß-glucuronidase. WARNING - Strains of Escherichia coli which do not grow at 44 °C and, in particular, those that are ß-glucuronidase negative, such as Escherichia coli O157, will not be detected.

This document specifies a potentiometric method for the determination of chloride (Cl-) content in the presence or in the absence of organic material. This method is applicable to plant biostimulants.

This document was developed to provide the methodology for the enumeration and determination of Azotobacter sp. [2] [3] in microbial plant biostimulants in accordance with the Regulation (EU) 2019/1009 of the European Parliament and of the Council [1].

This document specifies a horizontal method for the enumeration of yeasts and moulds present in plant biostimulants intended for use in agriculture, by means of the colony count technique after aerobic incubation at 25 °C ± 2,5 °C. This document allows the enumeration of yeasts and moulds, in technical and formulated plant biostimulant, both in liquid and solid state. The method is applicable to microbial plant biostimulant except those composed of fungi or yeast to verify that the concentration of yeast and moulds does not exceed the respective limits described in the EU Fertilisers Regulation [1]. If necessary, yeast and mould enumerated can be identified using suitable identification tests.

This document defines general rules for the aerobic preparation of the initial suspension and of dilutions for microbiological examinations of microbial plant biostimulants. This horizontal method might not be appropriate in very detail for certain products. In this case, different methods which are specific to these products can be used if necessary, for justified technical reasons.

This document specifies the requirements and methods for the clinical investigation of me equipment used for the intermittent non-invasive automated estimation of the arterial blood pressure by utilizing a cuff.
This document is applicable to all sphygmomanometers that sense or display pulsations, flow or sounds for the estimation, display or recording of blood pressure. These sphygmomanometers need not have automatic cuff inflation.
This document covers sphygmomanometers intended for use in all patient populations (e.g. all age and weight ranges), and all conditions of use (e.g. ambulatory blood pressure monitoring, stress testing blood pressure monitoring and blood pressure monitors for the home healthcare environment for self-measurement as well as use in a professional healthcare facility).
EXAMPLE Automated sphygmomanometer as given in IEC 80601-2-30 undergoing clinical investigation according to this document.
This document specifies additional disclosure requirements for the accompanying documents of sphygmomanometers that have passed a clinical investigation according to this document.
This document is not applicable to clinical investigations of non-automated sphygmomanometers as given in ISO 81060-1 or invasive blood pressure monitoring equipment as given in IEC 60601-2-34.

This document provides guidance on key aspects of remediation techniques and their implementation.
It briefly describes principles, the main characteristics and the advantages and limitations to be considered in the selection within an option appraisal of individual or combinations of in-situ and onsite remediation techniques, including:
— the type of contaminants to be dealt with;
— current and/or intended site use;
— local legal, policy, socio-economic and environmental contexts
It follows the principles for sustainable remediation in ISO 18504.
The scope of this document is restricted to the remediation of contaminated sites, i.e. where soil, or soil gas, ambient air or groundwater are contaminated. It identifies which phase/matrix can be targeted
by a technique, e.g. fluid, (groundwater, gas, non-aqueous phase) or solid and which contaminant it can applied to. The document also provides information on hazards that can be associated with the implementation of a remediation.
This document does not provide:
— an exhaustive list of remediation techniques;
— guidance on sites contaminated with radioactive substances, pathogenic or infectious agents, or “pyrotechnic devices (e.g. unexploded ordnances)”;
— guidance on ex-situ techniques that are set up off-site;
— a framework that covers all individual situations; or prescribe which technique(s) to use in a specific context.

This document applies to printed, projected, and electronic displays of high-contrast text that are designed for assessment and measurement of near reading acuity under photopic conditions
The definitions and requirements of this document apply to the Latin alphabet.

This document specifies, with reference to ISO 230-1, 230-2 and ISO 230-7, geometric tests, positioning tests and machining tests on general purpose and normal accuracy internal cylindrical grinding machines with horizontal spindle, whether fitted with a facing wheelhead slide or not. It also specifies
the applicable tolerances corresponding to the above-mentioned tests.
This document deals only with the verification of the accuracy; it applies neither to the testing of the machine operation (vibrations, abnormal noise, stick-slip motion of components, etc.), nor to the checking of its characteristics (such as speeds, feeds, etc.), which should generally be checked before the testing of the accuracy.
This document provides the terminology used for the principal components of the machine and the designation of the axes with reference to ISO 841.

This part of ISO/IEC 80079 covers the technical requirements necessary to avoid or minimize the significant hazards listed in Clause 4, which could occur during normal operation, maintenance or foreseeable malfunction of reciprocating internal combustion engines intended for use in explosive atmospheres including - Group I EPL Mb for use in underground workings susceptible to firedamp and/or combustible dust, - Group II EPL Gb and Gc for use in potentially explosive atmospheres of flammable gas and vapour and - Group III EPL Db and Dc for use in potentially explosive atmospheres of combustible dust. This part of ISO/IEC 80079 includes those tests of the engine and its ancillary devices that are required to verify compliance. This part of ISO/IEC 80079 applies to reciprocating internal combustion engines with compression ignition and spark ignition. This part of ISO/IEC 80079 does not define requirements relating to the driven machinery and equipment. This part of ISO/IEC 80079 does not apply - to flammable gas and vapour atmospheres containing carbon disulphide (CS2) and/or ethylene oxide (C2H4O) due to special properties of these gases; - to explosive mixtures of vapours and gases, which tend to self-decompose (e.g. acetylene) or which are chemically unstable.This International standard does not apply to engines used in areas for the processing manufacture or storage of explosives; - to gasoline engines and all other liquid injection spark ignited engines. This part of ISO/IEC 80079 solely deals with explosion protection requirements. Requirements on emissions are not covered by this standard. General safety requirements are not included in this International Standard. NOTE 1 General safety requirements i.e. those common to internal combustion engines, are covered for the EU in EN 1679-1:1998+A1:2011. This part of ISO/IEC 80079 does not specify requirements for safety, other than those directly related to the risk of ignition which may then lead to an explosion.The standard atmospheric conditions (relating to the explosion characteristics of the atmosphere) under which it may be assumed that engine can be operated are: - temperature -20 °C to +40 °C; - pressure 80 kPa (0,8 bar) to 110 kPa (1,1 bar); and - air with normal oxygen content, typically 21 % v/v. Such atmospheres can also exist inside the engine. In addition, the external atmosphere can be drawn inside the engine by natural breathing produced as a result of fluctuations in the engine's internal operating pressure, and/or temperature. NOTE 2 It is considered that −20 °C to +40 °C is appropriate for most engines. However for equipment designed for outside this range IEC/TS 60079-43 should be considered. NOTE 3 The requirements of this standard can also be helpful for the design, construction, testing and marking of engine intended for use in atmospheres outside the validity range stated above. In this case however, the ignition hazard assessment, ignition protection provided, additional testing (if necessary), manufacturer’s technical documentation and instructions to the user, should clearly demonstrate and indicate the engine's suitability for the conditions it may encounter. It should also be recognized that changes in temperature and pressure can have a significant influence on characteristics of the explosive atmosphere, such as ignitability (see Annex I). NOTE 4 Reciprocating internal combustion engines are not considered as pressure vessels.

This document is applicable to protective ventilation systems to provide breathing air to operator's stations on earth-moving machinery used in contaminated areas. Its purpose is to limit the exposure of the operator (driver) to hazardous agents when earth-moving machinery is used in contaminated areas. This document describes requirements, test procedures and information to be provided by the manufacturer for protective ventilation systems to provide breathing air to operator's stations on earth-moving machinery used in contaminated areas.
This document gives additional requirements to the common safety requirements of EN 474-1 “Earth-moving machinery – Safety – Part 1: General requirements” and to the machine specific parts of the EN 474 series.
This document does not repeat the requirements from the EN 474 series but adds or replaces the requirements as applicable for Earth-moving machinery.
This document does not cover:
— the safety requirement to be used for any specific application;
— the relevant filter performance or filter class for any particular application;
— the actual cab performance in the field application;
— the filtration performance in the field application;
— the field durability of filters.
This document is not applicable to protective ventilation systems which are manufactured before the date of its publication as an EN.

This document specifies, with reference to ISO 230-1, ISO 230-2, and ISO 230-7, geometric tests and tests for checking the accuracy and repeatability of positioning of numerically controlled axes for general-purpose, normal accuracy bridge-type milling machines with a travelling bridge (gantry-type).
This document also specifies the applicable tolerances corresponding to the above-mentioned tests.
This document provides the terminology used for the identification of the principal components of the relevant machine tools and the designation of axes with reference to ISO 841.
This document is applicable to machine tools with travelling bridge and fixed table. It does not include single-column (open sided) machine tools and those with fixed bridge and moving table.
This document deals only with the verification of the accuracy of the machine tool. It does not apply to the testing of the machine tool operation (vibration, abnormal noise, stick-slip motion of components, etc.) nor to machine tool characteristics (such as speeds, feeds, etc.), which should generally be checked before testing the accuracy.

This document applies only to Dimethyl Ether refuelling connectors with pressure equalizing port hereinafter referred to as devices, constructed entirely of new, unused parts and materials. Dimethyl Ether refuelling connectors with pressure equalizing port consist of the following components, as applicable:
a) Nozzle with pressure equalizing port Refuelling nozzle and pressure equalizing port are integrated so that connecting of refuelling path
and pressure equalizing path are performed with a single action (mounted on dispenser side) (see Clause 5).
b) Receptacle with pressure equalizing port (mounted on vehicle) (see Clause 7) This document applies to devices which are for Dimethyl Ether as fuel, hereinafter referred to in this document as M15(see 9.1c):
This document applies to devices with standardised mating components.
This document applies to connectors which prevent Dimethyl Ether vehicles from being fuelled by fuel station dispensers for other gaseous fuels
This document is applicable to: Dimethyl Ether in accordance with ISO 16861.
All references to pressures (kPa) throughout this document are considered gauge pressures unless otherwise specified.

This standard specifies the requirements for protective gloves to protect the hairdressers especially the risk against micro-organisms and dangerous chemicals and defines terms to be used.

This document defines the calculation method for determining the fan energy index (FEI), which is an energy efficiency metric for fan duty points. This metric provides a standardized and consistent basis to compare fan energy performance across fan types and sizes at a given fan duty point.
This document is applicable to fans driven by electric motors and fans without drives. It is not applicable to circulating fans or air curtains.
The fan energy index can only be calculated for fan duty points above a minimum air power of 125 W (where air power is the product of volume flow rate and fan static pressure) or above a minimum volume flow rate of 2,0 m3/s.

This document specifies an isotopic method to control the authenticity of vinegar and food containing vinegar as an ingredient (for example Aceto Balsamico di Modena), with a density below 1,28 g/cm3. This method is applicable on acetic acid of vinegar (from wine, cider, agricultural alcohol, etc.) in order to characterize the botanical origin of acetic acid and to detect adulterations of vinegar using synthetic acetic acid or acetic acid from a non-allowed origin (together with the method described in EN 16466-2).
The isotopic analysis of the extracted acetic acid by 2H-NMR is based on a similar method already normalized for wine analysis [10].
The application of this document can involve the use of hazardous substances, operations and equipment. This document does not claim to address all associated safety issues. It is the responsibility of the user of this document to take appropriate measures for the safety and health protection of personnel before use, and to check the applicability of existing national and European rules and regulations.

This document specifies the general principle and the technical protocol for the validation of identification methods of microorganisms for microbiology in the food chain. As there is no reference method, this document provides a protocol to evaluate the performance characteristics and validate
the method workflow using well-defined strains. When required, an additional identification method can be used.
This document is applicable to the validation of identification methods of microorganisms that are used for the analysis of microorganisms in:
— products intended for human consumption;
— products for feeding animals;
— environmental samples in the area of food and feed production and handling;
— samples from the primary production stage.
Validated identification methods cannot be used instead of confirmation described in:
— the reference method;
— an alternative method validated in accordance with ISO 16140-2;
— an alternative method validated in accordance with ISO 16140-6.
In these instances, the identification method shall be validated in accordance with the ISO 16140-6 to be
used as a confirmation method.
This document is, in particular, applicable to bacteria and fungi. Some clauses can be applicable to other (micro)organisms, to be determined on a case-by-case basis.

This document specifies requirements for the additive manufacturing of metallic parts with directed energy deposition in the aerospace industry. These can be additively built parts or additively built additions to existing parts. Within the application scope of this document, wire is used as feedstock, and arc processes (gas-shielded metal arc processes, tungsten inert gas processes, plasma arc processes) are used as the main energy source.
This document is to be used in conjunction with the engineering documents, if required by the engineering authority.
This document does not apply to national or international safety and health regulations.

This document EN 13819-1 specifies physical test methods for hearing protectors. The purpose of these tests is to enable assessment of the performance of the hearing protector as specified in the appropriate product standard.

This document specifies requirements on construction, design, performance, marking and user information for earplugs.
In particular, it specifies requirements regarding the sound attenuation of the earplugs, measured in accordance with EN ISO 4869-1:2018.
This document applies to earplugs designed for users who are able to follow supplied instructions and understand the related risks, can fit the earplugs correctly and can give feedback on the performance.
Ergonomic aspects are addressed by taking into account, within the requirements, the interaction between the user, the device and where possible the working environment in which the device is likely to be used (see Annex ZA and EN 458).

This document specifies requirements and tests methods for deposit systems, and classifies the systems according to their burglary resistance and their resistance to the theft of deposits.
This document comprises two types of deposit system:
— Night safes which provide depositing services for the customers of financial institutions without giving access to the content of the night safe.
— Deposit safes which enable the personnel of a company to place money or valuables in safe custody without giving access to the content of the deposit safe. The installation condition for deposit safe according to this document is that the depositing functions are installed inside the premises of the company and are only disposable for the personnel of the company.
NOTE Parts of a deposit system are a receiving unit, an input unit and in some cases, a chute.
This document includes design requirements for deposit systems controlled by programmable controllers and for the software for these. Controller hardware testing is restricted to mechanical or electromechanical attacks of electric motors, sensors, coils and similar devices; but software testing as attempts to influence controller software or controller hardware is not part of this document.
Deposit systems can have devices for functions such as user identification and/or counting and registration of money. Tests of and requirements for classification of such functions are not included.
This document does not cover protection of persons using the deposit system or the prevention of fraud committed by operators of the deposit system.

This document specifies a method for preparing samples of bitumen and bituminous binders in order to test their properties.
WARNING — The use of this document can involve hazardous materials, operations and equipment. This document does not purport to address all of the safety problems associated with its use. It is the responsibility of the user of this document to establish appropriate safety and health practices and to determine the applicability of regulatory limitations prior to use.

This document provides requirements for label information about chemicals used in product manufacture, particularly potentially allergenic substances employed and remaining in medical gloves. It also provides information on extraction media, methods of extraction and quantitative assay of residual chemicals.
This document does not provide information on the allergenic potential or safety to the user of any product. This is expected to be assessed in the light of all available toxicity and biocompatibility data on the products concerned as part of a risk management process.

This document specifies a method for determining the consistency of bitumen and bituminous binders. The normal procedure is described for penetrations up to 330 mm × 0,1 mm at 25 °C. The maximum penetration that can be tested is 500 mm × 0,1 mm.
WARNING — The use of this document can involve hazardous materials, operations and equipment. This document does not purport to address all of the safety problems associated with its use. It is the responsibility of the user of this document to establish appropriate safety and health practices and to determine the applicability of regulatory limitations prior to use

This document specifies a method for measuring the combined effects of heat and air on a thin moving film of bitumen or bituminous binder simulating the hardening which most bituminous binders undergo during mixing in an asphalt mixing plant.
The method described is not applicable to some modified binders or to those where the viscosity does not allow to provide a moving film. In some cases, the sample may creep out of the glass container and flow on the heating elements of the oven during testing. The method is suitable for other bituminous binders than paving grade bitumen, but the reference temperature might give excessive hardening that do not resemble real conditions during mixing at the plant. The method may not represent the hardening that occurs during mixing of warm mix binders.
The method is referred to as RTFOT, i.e. Rolling Thin Film Oven Test.
WARNING — Use of this document can involve hazardous materials, operations and equipment. This document does not purport to address all of the safety problems associated with its use. It is the responsibility of the user of this document to identify the hazards and assess the risks involved in performing this test method and to implement sufficient control measures to protect individual operators (and the environment). This includes appropriate safety and health practices and determination of the applicability of regulatory limitations prior to use.
If there is a likelihood of volatile components being present in a binder, this procedure should not be used. It should not be used for cutback bitumen or bituminous emulsions before these products have been stabilized, e.g. in accordance with EN 13074-2.

The purpose of this document is to specify the terminology applicable to bitumens and bituminous binders; therefore, this document contains only terms and definitions.

This document specifies the scheme for the assessment and verification of constancy of performance (AVCP) of ground granulated blast furnace slag, including certification of constancy of performance.
The document provides technical rules for the factory production control, further testing of samples taken at the manufacturing plant (autocontrol testing) and the assessment of the performance of the ground granulated blast furnace slag, initial inspection of the manufacturing plant and of the factory production control and audit-testing of samples. It also provides rules for actions to be followed in the event of non-conformity and the requirement for depots.
This document is linked with the Annex ZA of the European Standard covering ground granulated blast furnace slag, i.e. EN 15167-1:2006.

This part of ISO 105 specifies a method intended for determining the effect on the colour of textiles of all kinds, except loose fibres, to the action of weather as determined by exposure to simulated weathering conditions in a cabinet equipped with a xenon arc lamp. This document focuses on textiles (such as apparel) where the main evaluation criterium is the colour fastness.
This method can be used to determine if a textile is sensitive to the combined effect of light and water.
NOTE 1 General information on colour fastness to light is given in Annex A.
NOTE 2 ISO 105-B10 provides guidance on testing textiles or technical textiles, which are permanently exposed to an outdoor environment and/or require mechanical testing (such as tensile strength determination).

This document specifies a test method for assessing the peel strength of a thermoplastic elastomer (TPE) to a rigid substrate. It is mainly applicable to soft components in the Shore A hardness range.
This standard specifies a test piece but not the injection moulding tool for its manufacture. Hence, different results could be obtained for test pieces produced using different injection moulding tools.

This document specifies the requirements for phosphate conversion coatings which are usually destined for application on ferrous materials, aluminium, zinc, cadmium, and their alloys (see Annex B).

The HL7 EHR System Functional Model provides a reference list of functions that may be present in an Electronic Health Record System (EHR-S). The function list is described from a user perspective with the intent to enable
consistent expression of system functionality. This EHR-S Functional Model, through the creation of Functional Profiles for care settings, realms, services and specialties, enables a standardized description and common
understanding of functions sought or available in a given setting (e.g., intensive care, cardiology, office practice in one country or primary care in another country).

This document specifies general safety requirements and test methods for equipment installed in swimming pools for public use as classified in EN 15288 1 and EN 15288 2.
Where specific standards exist, this general standard is not expected to be used alone.
Special care is expected to be taken in applying this general standard alone to equipment for which no product specific standard has yet been published.

This document specifies safety requirements relevant to certain aspects of the design and construction of classified pools according to Clause 4. It is intended for those concerned with the design, construction, planning and operation of classified swimming pools. It provides guidance about the risks associated by identifying the design characteristics required for a safe environment. The requirements of this document are applicable to all new classified pools and, as appropriate, to specific refurbishments of classified existing pools. This document has limited application to classified pools which consist of segregated areas of rivers, lakes or the sea but this document should be followed where relevant. National and/or local legislation may apply. This document is not applicable to domestic swimming pools according to EN 16582 (all parts). Further definitions of domestic swimming pools and/or use is given in EN 16582.

This document specifies methods for determining the resistance of the colour of textiles of all kinds exposed to all forms of industrial laundering procedures.
One cycle approximates to the colour loss and cross staining resulting from chemical and/or mechanical action achieved after multiple (5 to 10) industrial launderings.

This document specifies the safety requirements and means of verification in addition to EN 1459-1:2017+A1:2020 and EN 1459-2:2015+A1:2018 as applicable, for rough-terrain variable-reach trucks (hereafter referred to as trucks) designed and intended for handling suspended loads which can swing freely in one or more directions. It is applicable to trucks covered by EN 1459-1:2017+A1:2020 and EN 1459-2:2015+A1:2018.
This document does not apply to:
- the lifting of suspended loads which by design of the load or the lifting attachments does not allow the load to swing freely in any direction;
- the handling of flexible intermediate bulk containers, as defined in ISO 21898:2004, carried under the forks of the truck or with attachments intended for this purpose;
- any attachments / means used for lifting personnel;
- lifting accessories;
- freight container handling trucks;
- mobile cranes (covered by EN 13000:2010+A1:2014).
This document deals with all significant hazards, hazardous situations or hazardous events, related to trucks handling a freely suspended load, when they are used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer (see Annex A).
This document does not deal with load limiter for attachments.
This document is not applicable to rough-terrain variable-reach trucks designed and intended for handling suspended loads manufactured before the date of its publication.

This European Standard specifies the general safety requirements of non-slewing variable-reach rough-terrain trucks, articulated or rigid chassis, equipped with a telescopic lifting means (pivoted boom), on which a load handling device (e.g., carriage and fork arms) is typically fitted.
Fork arms and other integrated attachments are considered to be parts of the truck. For attachments the appropriate clauses of this standard are applicable and other specific standards may also apply.
This European Standard does not apply to:
 slewing variable reach rough terrain trucks covered by prEN 1459-2;
 industrial variable reach trucks covered by EN ISO 3691-2;
 lorry-mounted variable reach trucks;
 variable reach trucks fitted with tilting or elevating operator position;
 variable reach rough terrain trucks designed for container handling;
 mobile cranes covered by EN 13000;
 machines designed primarily for earth moving, such as loaders and dozers, even if their buckets and blades are replaced with forks (see EN 474 series);
 trucks designed primarily with variable length load suspension elements (e.g., chain, ropes) from which the load may swing freely in all directions covered by prEN 1459-4;
 trucks fitted with personnel/work platforms, designed to move persons to elevated working positions covered by prEN 1459-3;
 trucks designed primarily for container handling;
 trucks incorporating tractor specific devices;
 trucks on tracks.
This European Standard does not address hazards linked to:
 hybrid power systems;
 gas power systems
 battery power systems.
This European Standard does not address hazards which may occur:
a) during manufacture;
b) when handling suspended loads which may swing freely;
c) when using trucks on public roads;
d) when operating in potentially explosive atmospheres;
e) when operating underground.

This document specifies requirements for the truck side of the attachment interface of rough-terrain non-slewing and slewing variable reach trucks (hereafter referred to as "trucks") dealt with in EN 1459-1:2017+A1:2020, EN 1459-2:2015+A1:2018 and EN 1459-4:2020.
This document covers the interface for the attachments fitted to the telescopic boom carriage or mounted on the forks when it is used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer. This document does not cover:
- interface for interchangeable equipment designed for lifting person(s) (covered by EN 1459-3:2015);
- interface for equipment for container handling (e.g. spreader);
- interface for equipment permanently installed on the machine and not intended to be removed by the user.
NOTE In this case, equipment becomes part of the truck.
This document does not give requirements for the completed assembly of a truck fitted with an attachment. This document does not address risks to parts of the truck other than the interface with the attachment.
This document is not applicable to interfaces manufactured before the date of its publication.

1.1 This document gives guidance on the production of RMs having one or more assigned qualitative property values. Qualitative properties, also called categorical properties, can be nominal or ordinal. A nominal property has values that partition the set of materials that have it into classes such that all the materials in the same class have the same value of the property, and the only comparison that can be made between values of the property is of whether they are identical or different. An ordinal property is similar, except that the comparisons that can be made between two values of the property are of relative rank order; that is, whether one is lower, equal to, or higher than the other. This document focuses on nominal properties.
1.2 This document gives specific guidance on the production of RMs having one or more assigned qualitative property values, including ways to express related uncertainties and to establish traceability.
NOTE The concepts of traceability and uncertainty address characteristics similar to those addressed by the concepts of traceability and measurement uncertainty as used in the metrology of quantitative properties.
NOTE RMs of pure substances for which a quantitative purity value is assigned should be prepared in accordance with the recommendations for quantitative properties in ISO Guide 35[2].
1.3 This document supplements ISO 17034 (General requirements for the competence of reference material producers)[7] and related ISO Guides such as ISO Guide 35 (Reference materials —Guidance
for characterization and assessment of homogeneity and stability).[2] While ISO Guide 35 provides some guidance on the production of RMs with qualitative property values, Guide 35 and ISO 17034 primarily focus on the production of RMs with quantitative property values. ISO 33406 therefore does not describe aspects related to the production of RMs with quantitative property values.
NOTE Annex A provides examples of types of reference materials within the scope of this document.
 

This specification describes a methodology for calculating the rate of carbon emissions for a software system; that is, its SCI score. The purpose of this score is to increase awareness and transparency of an
application's sustainability credentials. The score will help software practitioners make better, evidence-based decisions during system design, development, and deployment, that will ultimately minimize carbon emissions. A reliable, consistent, fair and comparable measure allows targets to be defined during development and progress to be tracked.

This document specifies a set of principles and rules that algae producers, algae products industries, laboratories or other entities that collect algae and algae products samples can follow for the definition of their own sampling programs and sampling protocols.
In the context of this document, algae are a functional group that include microalgae, macroalgae, cyanobacteria and Labyrinthulomycetes.
As algae and their production processes are so diverse, this document does not define a specific sampling program and/or a specific sampling protocol. Instead, this document specifies the aspects that can be considered when defining one’s own sampling program and protocol.
This document describes when, where and how to draw a representative sample. For guidance on sample preparation of dry and wet samples of micro- and macroalgae, and algae products, please refer to EN 17605.
This document is intended to be used for the collection of samples for lot characterization for commercial or legal/regulatory purposes. However, this document can also be used for any type of sampling of algae, including samples for quality control during production.

This document specifies the single-pole temperature compensated circuit breakers with signal contacts, polarized or not, rated from 20 A to 50 A and used in aircraft on-board circuits. It describes specific environmental, electrical and mechanical characteristics and the stringency of tests to be applied according to test methods of EN 3841-100.
These circuit breakers are intended for use in aircraft with electrical supplies in accordance with EN 2282 (all categories).

This document specifies the test methods to evaluate the wicking of wire and cable insulated with textile braid.
It is intended to be used together with EN 3475-100.

This document sets and defines the minimum requirements for registration of data acquired from process-monitoring and for quality control in additive manufacturing (AM), including the description of a procedure.
Furthermore, this document comprises actions that users shall execute to register multi-modal AM data and store them in an appropriate repository.
This document is not applicable for data cleansing, image processing, cost, production time and personnel.
This document is only applicable for data gathered and generated from non-destructive test methods and sensors, e.g., X-ray computer tomography (XCT), cameras and coordinate measuring machines (CMM).
This document is only applicable to metallic parts produced by means of laser-based powder bed fusion (PBF-LB) and direct energy deposition (DED); nevertheless, the procedures described in this document
can be applied to monitor other AM processes and materials (e.g., polymer or ceramic powder bed fusion, binder jetting, and photopolymerization), but this document does not provide any data or case studies for them.

This document establishes a terminology for the air filtration industry and comprises terms and definitions only.
This document is applicable to particulate matter and gas phase air filters and air cleaners used for the general ventilation of inhabited enclosed spaces. It is also applicable to air inlet filters for static or seaborne rotary machines and UV-C germicidal devices.
It is not applicable to cabin filters for road vehicles or air inlet filters for mobile internal combustion engines for which separate arrangements exist. Dust separators for the purpose of air pollution control are also excluded.

This part of EN 1366 specifies a test method for determining the fire resistance of smoke extraction ducts that are used for single compartment applications only. In such applications, the smoke extraction system is only intended to function up to flashover (typically 600 °C).
This method of test is only suitable for ducts constructed from non-combustible materials (euro class A1 and A2-s1, d0).
It is applicable only to four sided and circular ducts. One-, two- and three-sided ducts are not covered. This standard is applicable only for the standard sizes or smaller as described.
This test method of part 9 is applicable only to smoke extraction ducts that do not pass into other fire compartments. For smoke extraction ducts that pass into other compartments, the method of test described in EN 1366-8 is used.
The smoke extraction duct is part of the smoke extraction system which also includes smoke control dampers and smoke extract fans.

This document specifies a test method for determining the fire resistance of smoke extraction ducts. It is applicable only to smoke extraction ducts that pass through another fire compartment from the fire compartment to be extracted in case of fire. It represents fire exposure of a fully developed fire.
This method of test is only applicable to ventilation ducts with the following classification according to EN 13501-3:
— fire from inside and outside i ↔ o;
— applicable to a pressure difference up to 500 Pa;
NOTE 1 Requires that the duct A test(s) has been preformed with an under-pressure of minimum 500 Pa.
— with integrity (E) and insulation (I) criteria equal to or higher than the intended classification for the smoke extraction duct.
NOTE 2 According to: EN 13501–4:2009/A1:2009 Multi-compartment smoke extraction duct can only be classified as EI.
For the purposes of the test described in this document, the duct is referred to as duct C.
This test method has been designed to cover both vertical and horizontal smoke extraction ducts. A vertical system need not be evaluated to this method provided that:
— both horizontal (ho) and vertical (ve) classification according to EN 13501-3 has been obtained for the ventilation duct, and
— it has been tested in a horizontal orientation to this method.
If the ventilation duct in practice is only used for vertical applications in smoke extraction systems, only vertical (ve) classification is bound to be used and tested in a vertical orientation to this method according to EN 13501-3.
This test method is suitable for ducts constructed from non-combustible materials (Euroclass A1 and A2).
NOTE 3 Using combustible material could lead to an incorrect calculation of the leakage based on the oxygen measurement. E.g. galvanisation could lead to some negative effects for the measurements.
It is applicable only to four sided ducts; one, two and three sided ducts are not covered.

This document establishes a terminology for the air filtration industry and comprises terms and definitions only.
This document is applicable to particulate matter and gas phase air filters and air cleaners used for the general ventilation of inhabited enclosed spaces. It is also applicable to air inlet filters for static or seaborne rotary machines and UV-C germicidal devices.
It is not applicable to cabin filters for road vehicles or air inlet filters for mobile internal combustion engines for which separate arrangements exist. Dust separators for the purpose of air pollution control are also excluded.

This document specifies symbols (i.e. conventional signs) for use on controls, indicators and tell-tales applying to passenger cars, light and heavy commercial vehicles and buses, to ensure identification and facilitate use. This document additionally describes the purpose and application for the symbols.

It also indicates the colours of possible optical tell-tales, which inform the driver of either correct operation or malfunctioning of the related devices.

This document specifies a procedure for the determination of kinematic viscosity (ν) by calculation from dynamic viscosity (η) and density (ρ) of both transparent and opaque liquid petroleum products and crude oils using the Stabinger type viscometer.
The result obtained using the procedure described in this document depends on the rheological behaviour of the sample. This document is predominantly applicable to liquids whose shear stress and shear rate are proportional (Newtonian flow behaviour). If the viscosity changes significantly with the
shear rate, comparison with other measuring methods is not possible except at similar shear rates.
The precision has been determined only for the materials, density ranges and temperatures described in Clause 13. The test method may be applied to a wider range of viscosity, density, temperature and materials. The precision and bias may not be applicable for materials not listed in Clause 13.

This International Standard specifies the minimum requirements for rubber hoses used for transferring ammonia, in liquid or in gaseous form, at ambient temperatures from −40 °C up to and including +55 °C at a working pressure of 2,5 MPa (25 bar). It does not include specifications for end fittings, but is
limited to the performance of the hoses and hose assemblies.

This document sets and defines the minimum requirements for registration of data acquired from process-monitoring and for quality control in additive manufacturing (AM), including the description of a procedure.
Furthermore, this document comprises actions that users shall execute to register multi-modal AM data and store them in an appropriate repository.
This document is not applicable for data cleansing, image processing, cost, production time and personnel.
This document is only applicable for data gathered and generated from non-destructive test methods and sensors, e.g., X-ray computer tomography (XCT), cameras and coordinate measuring machines (CMM).
This document is only applicable to metallic parts produced by means of laser-based powder bed fusion (PBF-LB) and direct energy deposition (DED); nevertheless, the procedures described in this document
can be applied to monitor other AM processes and materials (e.g., polymer or ceramic powder bed fusion, binder jetting, and photopolymerization), but this document does not provide any data or case studies for them.

This document specifies the determination of the share of material recovery in the case of energy recovery (i.e. co-processing) of SRF, i.a., in a cement kiln. This share, called Recycling Index, is calculated on the basis of the ash content and the ash composition.

The International Standard specifies a method for evaluating the deposition on real structures and equipment by wiping them from their surfaces. Depositions become corrosion and/or degradation factors of the metals, alloys, and organic materials and shall be analyzed quantitatively to control
corrosion and degradation of real structures and equipment.
This method is especially suitable for evaluating the kind and amount of deposition on real structures and equipment in all industries. This method delivers types and instantaneous values of the watersoluble and insoluble deposition concentrations explained as an unit of weight per area without the
time component and gives knowledge of environmental factors against corrosion and degradation.
Water-soluble depositions detected by this method include not only chloride ion but also sulfate ion and other ions to understand the synergistic and antagonistic effects for the corrosion acceleration.
This document is applicable to
— metals and their alloys exposed in various environment
— metallic coatings exposed in various environment
— organic coatings exposed in various environment
— concreates and other structural materials exposed in various environment
NOTE Measurement method of chloride on cleaned surfaces to make sure the cleanness of the steel substrates after surface preparation such as grinding, polishing, cleaning, and rinsing, and before application of paints are given in ISO 8502.

This document specifies product characteristics and test methods of open nozzles and automatic nozzles for use in water mist systems.

This document specifies requirements for data to be portable data. The following are within the scope
of this document:
— fundamental principles and assumptions for portable data;
— the role of semantic encoding in making data portable;
— the syntax of a structured format for portable data;
— the metadata and the reference data to include as part of portable data.
The following are outside the scope of this document:
— the information to be represented by the structured data format.

This document is applicable to compressors and compressor units having an operating pressure greater than 0,5 bar and designed to compress air, nitrogen or inert gases. This document deals with all significant hazards, hazardous situations and events relevant to the design, installation, operation, maintenance, dismantling and disposal of compressors and compressor units when they are used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer (see
Clause 4 of this document).
This document includes under the general term compressor units those machines which comprise:
— the compressor;
— a drive system;
— any component or device which is necessary for operation.
This document covers compressors driven by any power media, including battery powered and which are fitted in or used with motor vehicles.
The significant hazards dealt with in the standard are identified in Annex A of this document.
This document does not cover requirements for compressors and compressor units used in potentially explosive atmospheres.
This document is not applicable to compressors and compressor units which are manufactured before the date of publication of this standard.
This document does not cover compressors and compressor units for processing petroleum, petrochemicals, or chemicals within the scope of ISO/TC 67.
This document does not give performance levels or safety integrity levels for safety related parts of control systems.

This part of ISO 18623 is applicable to compressors and compressor units having an operating pressure greater than 0,5 bar and designed to compress air, nitrogen or inert gases. This standard deals with all significant hazards,
hazardous situations and events relevant to the design, installation, operation, maintenance, dismantling and disposal of compressors and compressor units, when they are used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer (see Clause 4).
This part of ISO 18623 includes under the general term compressor units those machines which comprise:
- the compressor;
- a drive system;
-  any component or device which is necessary for operation.
This part covers compressors driven by any power media, including battery powered and which are fitted in or used with motor vehicles.
The significant hazards dealt with in the standard are identified in Annex B.
It does not cover requirements for compressors and compressor units used in potentially explosive atmospheres.
It is not applicable to compressors and compressor units which are manufactured before the date of publication of this standard.
It does not cover compressors and compressor units for processing petroleum, petrochemicals, or chemicals within the scope of ISO TC67.

This document deals with the technical requirements and the means for their verification for Additive Manufacturing (AM) machines using a bed of metallic powder, pyrophoric feedstock excluded, and a laser herein designated as machine.
This document deals with all significant hazards, hazardous situations or hazardous events during all phases of the life of the machine (ISO 12100:2010, 5.4), as listed in Annex A, caused by AM machines
using a bed of metallic powder and a laser when used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer.
This document does not deal with hazards which can occur:
— during construction;
— operating in potentially explosive atmospheres.
This document is not applicable to machines manufactured before the date of its publication.

This document specifies a method for the determination of the air saturated vapour pressure (ASVP) (total vapour pressure), exerted in vacuo, by volatile, low viscosity petroleum products, components, ethanol blends up to 85 % (V/V), and feedstocks containing air. A dry vapour pressure equivalent (DVPE) can be calculated from the air containing vapour pressure (ASVP) measurement.
The conditions used in the test described in this document are a vapour-to-liquid ratio of 4:1 and a test temperature of 37,8 °C.
The equipment is not wetted with water during the test, and the method described is therefore suitable for testing samples with or without oxygenates; no account is taken of dissolved water in the sample.
The method described is suitable for testing air saturated samples with a DVPE between 15,5 kPa and 106,0 kPa; vapour pressures outside this range can be measured, but the precision has not been determined.
This document is applicable to fuels containing oxygenated compounds up to the limits stated in the relevant Council Directive 85/536/EEC [10], and for ethanol-fuel blends up to 85 % (V/V) ethanol.
NOTE For the purposes of this document, the terms “% (m/m)”and “% (V/V)” are used to represent the mass and volume fractions, respectively.
WARNING — The use of this document can involve hazardous materials, operations and equipment. This document does not purport to address all of the safety problems associated with its use. It is the responsibility of users of this document to take appropriate measures to ensure the safety and health of personnel prior to application of the document, and to determine the applicability of any other restrictions for this purpose.

This document covers:
a) the criteria and metrological requirements to qualify for a master meter and the maintenance of its master meter status.
b) the requirements and procedures for meter verification using master mass flow meter to verify and check the meter stability and performance of a duty meter installed on a bunker tanker or at a terminal.

This document specifies a method for evaluating the change of consistency of a grease when it is submitted to prolonged working in presence of 10 % of water.

This document specifies an analytical method for quantification of the spontaneous heat generation from solid recovered fuels using isothermal calorimetry. This document gives guidance on the applicability and use of the specified analytical method. It further establishes procedures for sampling and sample handling of solid recovered fuels prior to the analysis of spontaneous heat generation. The test procedure given in this document quantifies the thermal power (heat flow) of the sample during the test. It does not identify the source of self-heating in the test portion analysed.

This document specifies a method for determining the density of coating powders by liquid displacement in a measuring cylinder. The method is based on a determination of the mass and the volume of a test portion. It can be used for all types of coating powders.
NOTE If the powder does not swell in contact with the displacement liquid used and if the displacement liquid replaces the air between the powder particles, it can then be used and compared with the method described in ISO 8130-3.

This document specifies a test method for estimating the influence of jetting liquids from the rinsing process after electro-deposition coating (permeate residues) on a coating.
It applies to electro-deposition coatings for automotive industries and other general industrial applications, e.g. chiller units, consumer products, radiators, aerospace, agriculture.

This document specifies a test method for determining the pigment-binder ratio.
It applies to electro-deposition coatings for automotive industries and other general industrial applications, e.g. chiller units, consumer products, radiators, aerospace, agriculture.

This document specifies the three-pole temperature compensated circuit breakers, rated from 1 A to 25 A used in aircraft on-board circuits. It describes specific environmental, electrical and mechanical characteristics and the stringency of tests to be applied according to test methods of EN 3841-100. These circuit breakers are intended for use in aircraft with electrical supplies in accordance with EN 2282.

This document is part 2 of the ISO/IEC 24773 series. It contains guidance and recommendations for certification that may be used by certification or qualification bodies regarding the description of knowledge, skill and competence within their particular schemes based on ISO/IEC 24773-1:2019.
Annex A contains further explanation about the distinction between certification and professional licensure. Annex A also contains additional guidance to encourage harmonization between a certification scheme and the requirements of regulators.

This document defines the requirements for the symbology known as Aztec Code. It specifies the Aztec Code symbology characteristics including data character encodation, rules for error control encoding,
the graphical symbol structure, symbol dimensions and print quality requirements, a reference decoding algorithm, and user-selectable application parameters.

This document specifies the single-pole temperature compensated circuit breakers rated from 1 A to 25 A and used in aircraft on-board circuits. It describes specific environmental, electrical and mechanical characteristics and the stringency of tests to be applied according to test methods of EN 3841-100. These circuit breakers are intended for use in aircraft with electrical supplies in accordance with EN 2282.

This document specifies the three-pole temperature compensated circuit breakers with signal contacts, polarized or not, rated from 20 A to 50 A and used in aircraft on-board circuits. It describes specific environmental, electrical and mechanical characteristics and the stringency of tests to be applied according to test methods of EN 3841-100. These circuit breakers are intended for use in aircraft with electrical supplies in accordance with EN 2282 (all categories).

This document only applies to continuous testing of rails installed in track for detecting internal discontinuities.
This document only applies to testing equipment fitted to dedicated test vehicles or manually-propelled devices. This document treats welded joints as plain rail.
This document does not define the requirements for vehicle acceptance. This document does not apply to ultrasonic testing of rails in a production plant.
This document specifies the requirements for testing principles and systems in order to produce comparable results with regard to location, type and size of discontinuities in rails. This document is not aiming to give any guidelines for managing the result of ultrasonic rail testing. This document only
applies to flat bottom (Vignole) railway rail profile 43 kg/m and above.

This International Standard gives advice on how to generate reliable and reproducible crystallographic orientation measurements using electron backscatter diffraction (EBSD). It addresses the requirements for specimen preparation, instrument configuration, instrument calibration and data acquisition.

This document provides guidelines describing the adhesive bonding quality requirements suitable for use by adhesive user-companies utilizing adhesive bonding as a means of fabrication. In particular, the guidelines define various approaches to meeting quality requirements for fabrication and reporting procedures, both in workshops and on site. These guidelines aim to convey the importance of maintaining quality standards in fabrication and reporting procedures, keeping records and thus enabling documentation to provide the basis for risk evaluation of adhesively bonded structures in service and in use.
These guidelines have been prepared such that:
a) they are independent of the type of adhesively bonded structure;
b) they are independent of adhesive user-companies’ and suppliers’ product recommendations;
c) they define the quality requirements for adhesive bonding in terms of fabrication and reporting procedures, both in workshops and on site;
d) they can be used as the basis for risk evaluation of adhesively bonded structures in service and in use;
e) they can be used as a basis for assessing a fabricator's capability to produce adhesively bonded structures fulfilling specified quality requirements when they are detailed in one or more of the following:
— a contract between the parties involved;
— an application standard;
— a regulatory statement.
The guidelines contained within this document can be adopted in full or selectively chosen by the adhesive user to suit the structure concerned. The guidelines provide a flexible framework for the control of adhesive bonding activities in the following cases.
Case 1
The provision of specific requirements for adhesive bonding in contracts that require the adhesive user to have a quality system other than ISO 9001.
Case 2
The provision of specific requirements for adhesive bonding as guidance to an adhesive user developing a quality system.
Case 3
The provision of specific requirements for references in application standards that uses adhesive bonding as part of its requirements or in a contract between relevant parties.

Case 4
The provision of a framework for fabrication and reporting procedures to a quality standard, suitable in particular as a basis for the risk evaluation of adhesively bonded structures.

This document specifies technical requirements for hot rolled stainless steel plain bars and ribbed bars to be used as reinforcement in concrete. It is applicable to steel delivered in the form of bars, coils and de-coiled products. It does not apply to ribbed bars produced from finished products
The production process is at the discretion of the manufacturer.

This document is applicable to rail vehicles and specifies the terms, definitions, symbols and abbreviated terms to be used in the ISO 19659 series, heating, ventilation and air conditioning for rolling stock.

This document provides users with guidance that help prevent risks related to energies during maintenance activities on plants when in use. It is up to each employer, according to the terms commonly used in the company, to:
— Set out the correlation between the processes described in this document and standard practices;
— Define the roles and responsibilities of the people involved in the energy lockout process.
This document refers to concepts, definitions, rules, recommendations and best practices taken from national and international documents (lockout/tagout– “administrative lockout” – Lockout/Tagout (LOTO) – Safe isolation) that cover activities to ensure the safety of worker as regards energies.
This document deals with the prevention of energies and fluids (powders, gases, liquids) related risks; it is noted that some are covered by specific regulations or standards, such as the electrical risk. Environmental issues related to energies and fluids are not in the scope of this document.
The recommendations stated in this document have been drawn up with a view to ensure the safety and health of workers around hazardous energies and fluids, and situations when they are conducting activities on maintenance, settings, changing formats, regardless of the type of activity.
The recommendations relate to activities carried out on items. They are applied before, during and after the operation to:
— The energies supplied, contained, transported or released by plants, products and fluids;
— Risks of lack of presence of vital elements for the worker (breathable air);
— Risks related to the presence of hazardous fluids for the worker and the surrounding personal.
This document is a methodological guideline within the normative maintenance corpus.

This standard establishes a normative definition of communication between personal telehealth insulin pump devices (agents) and managers (e.g., cell phones, personal computers, personal health appliances, set top boxes) in a manner that enables plug-and-play interoperability. It leverages work done in other ISO/IEEE 11073 standards including existing terminology, information profiles, application profile standards, and transport standards. It specifies the use of specific term codes, formats, and behaviors in telehealth environments, restricting optionality in base frameworks in favor of interoperability. This standard defines a common core functionality of personal telehealth insulin pump devices. In the context of personal health devices (PHDs), an insulin pump is a medical device used for the administration of insulin in the treatment of diabetes mellitus, also known as continuous subcutaneous insulin infusion (CSII) therapy. This standard provides the data modeling according to ISO/IEEE 11073-20601 and does not specify the measurement method.

This document specifies the performance test method of electrically driven low-pressure air compressor packages, where the compression is performed by positive displacement or dynamic compression; utilising atmospheric air as the compression gas. Low-pressure air compressor packages are often referred to as “blowers”.
NOTE Throughout this document, the term ‘low-pressure compressor’ is used to describe a low-pressure air compressor (“blower”) package
Low-pressure compressors with and without means of controlling flow (control may be electrical (e.g. with a variable frequency drive) or mechanical or both) are covered.
This document applies to low-pressure compressors meeting all the following limits:
— Atmospheric inlet air pressure between 0,5 bara and 1,1 bara.
— Discharge vs Inlet pressure differential between 0,1 bar and 2,5 bar.
— Discharge vs Inlet pressure ratio between 1,1 and 3,5.
This document is not applicable to:
— positive displacement low-pressure compressors with a liquid in the compression element (such as liquid ring pumps and liquid injected low-pressure compressor of screw type)
— multi-stage low-pressure compressors other than multistage centrifugal compressors comprised of multiple, identical or very similar uncooled sections along a single shaft (repeating stages).
— single shaft, multistage centrifugal compressors are treated from the point of measurement and calculation as a single stage

This document specifies requirements for washer-disinfectors (WD) that are intended to be used for emptying, flushing, washing and thermal disinfection of containers used to hold human waste for disposal by one operating cycle.
The requirements of this document apply in addition to the general requirements specified in ISO/DIS 15883-1:2020 and ISO 15883-5:2021.

This document defines the assessment of endurable longitudinal compressive forces (LCF) of a vehicle. The endurable longitudinal compressive force is a parameter depending on the vehicle design. It is used to estimate the risk of derailment as a result of being subjected to these forces, under operating conditions.
NOTE 1 As operating conditions may vary in several aspects (infrastructure, train configurations etc.), this document defines uniform asse