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This document specifies the minimum requirements for the contents of the user manual for Automotive LPG propulsion systems fitted in road vehicles. This document does not cover the user manual for forklift trucks or other industrial machinery.

This part of EN 71 specifies requirements for the substances and materials used in finger paints and applies to finger paints only. Additional requirements are specified for markings, labelling and containers.

NOTE EN 71-3 and EN 71-12 specify requirements and test methods for finger paints for the migration of certain elements (see F.4) and N-nitrosamines (see F.9).

This International Standard specifies the requirements and/or measures to eliminate the hazards or reduce the risks in the following groups of stationary grinding machines which are designed primarily to shape metal by grinding: Group 1: Manually controlled grinding machines without power operated axes and without numerical control. Group 2: Manually controlled grinding machines with power operated axes and limited numerically controlled capability, if applicable. Group 3: Numerically controlled grinding machines. NOTE 1 For detailed information on the groups of grinding machines, see the definitions in 3.1 and 3.4. NOTE 2 Requirements in this International Standard are, in general, applicable to all groups of grinding machines. If requirements are applicable to some special group(s) of grinding machines only, then the special group(s) of grinding machine(s) is/are specified. This International Standard covers the significant hazards listed in Clause 4 and applies to ancillary devices (e.g. for workpieces, tools and workpiece clamping devices, handling devices), which are integral to the machine. This International Standard also applies to machines which are integrated into an automatic production line or grinding cell inasmuch as the hazards and risks arising are comparable to those of machines working separately. This International Standard also includes in Clause 7 a minimum list of safety-relevant information which the manufacturer has to provide to the user. See also ISO 12100:2010, Figure 2, which illustrates the interaction of manufacturer’s and user’s responsibility for the operational safety. The user's responsibility to identify specific hazards (e.g. fire and explosion) and reduce the associated risks can be critical (e.g. whether the central extraction system is working correctly). Where additional metalworking processes (e.g. milling, turning, laser processing) are involved, this International Standard can be taken as a basis for safety requirements. For specific information on hazards arising from other metalworking processes, which are covered by other International Standards, see the Bibliography. This International Standard applies to machines that are manufactured after the date of issue of this International Standard. This International Standard does not apply to stationary honing, polishing and belt grinding machines and not to transportable motor-operated electric tools in accordance with IEC 61029-2-2 and IEC 61029-2-10. 

 This document specifies requirements and test methods for metallic toecaps, intended to function as components of PPE footwear (e.g. as described by ISO 20345 and ISO 20346).

This International Standard specifies the requirements and/or measures to eliminate the hazards or reduce the risks in the following groups of turning machines and turning centres, which are designed primarily to shape metal by cutting. — Group 1: Manually controlled turning machines without numerical control. — Group 2: Manually controlled turning machines with limited numerically controlled capability. — Group 3: Numerically controlled turning machines and turning centres. — Group 4: Single- or multi-spindle automatic turning machines. NOTE 1 For detailed information on the machine groups, see the definitions in 3.5, features and limitations in 5.1.1 and mandatory and optional modes of operation in 5.1.2.1. NOTE 2 Requirements in this International Standard are, in general, applicable to all groups of turning machines. If requirements are applicable to some special group(s) of turning machines only, then the special group(s) of turning machine(s) is/are specified. NOTE 3 The automatic exchange of clamping devices are excluded from this standard This international standard takes account of intended use, including reasonably foreseeable misuse, maintenance, cleaning, and setting operations. It specifies access conditions to operators positions and manual load/unload stations. It presumes accessibility to the machine from all directions. It describes means to reduce risks to operators and other exposed persons. This international standard also applies to workpiece transfer devices including transport devices for loading/unloading when they form an integral part of the machine. This international standard deals with significant hazards relevant to turning machines when they are used as intended and under the conditions foreseen by the manufacturer (see 4). Risk analysis of hazards arising from other metal working processes (e.g. grinding, milling, friction welding, forming, electro discharge, laser processing) are covered by other standards (see Bibliography). However, if additional milling and grinding operations are provided hazard arising from additional clamping condition and ejection of parts shall be considered. This International Standard also applies to machines which are integrated into an automatic production line or turning cell in as much as the hazards and risks arising are comparable to those of machines working separately. This International Standard also includes a minimum list of safety-relevant information which the manufacturer has to provide to the user. See also ISO 12100:2010, Figure 2, which illustrates the interaction of manufacturer's and user's responsibility for the operational safety. The user's responsibility is to identify specific hazards (e.g. fire and explosion) and reduce the associated risks can be critical (e.g. whether the central extraction system is working correctly). This International Standard applies to machines that are manufactured after the date of issue of this International Standard.

This document specifies equipment and procedures for determining the pull-through resistance of plate and spiral anchors through thermal insulation products.

ISO 14116:2015 specifies the performance requirements for the limited flame spread properties of all materials, all material assemblies, and protective clothing in order to reduce the possibility of the clothing burning when in occasional and brief contact with small flames and thereby constituting a hazard. Additional requirements for clothing are also specified, including design requirements, mechanical requirements, marking, and information supplied by the manufacturer. When protection against heat hazards is necessary, in addition to protection against flame, this International Standard is not appropriate. International Standards such as ISO 11612 are to be used instead. A classification system is given for materials, material assemblies, and garments which are tested according to ISO 15025, Procedure A.

ISO 294-5:2017 specifies a mould (designated the type F ISO mould) for the injection moulding of plates with a preferred size of 80 mm × 120 mm and a minimum size of 80 mm × ≥90 mm and with a preferred thickness of 2 mm for single-point and multi-point data acquisition. It has been found to provide the maximum anisotropic properties, with only a slight sensitivity to the rate of injection. Whenever possible, a two cavity mould is intended to be used. For the design of plastic parts, this will provide upper and lower bounds for the tensile properties. Matching the plate thickness to a given part thickness is not a suitable criterion because of the effect of mould filling rate and part geometry on anisotropy. Investigation of the anisotropy of materials is a special procedure intended to provide guidance in the design of mouldings for end-use applications and is not intended as a quality control tool. In the injection moulding of thermoplastic materials, the flow of molten polymer can influence the orientation of fillers such as fibreglass or the orientation of polymer chains, resulting in anisotropic behaviour. For the purposes of ISO 294-5:2017, the flow direction is defined as the direction from the gate to the far end of the mould cavity and the cross direction as the direction perpendicular to the flow direction. The type F mould is not intended to replace the type D mould used to determine the moulding shrinkage of thermoplastics.

This document specifies performance requirements for protective clothing made from flexible materials, which are designed to protect the wearer’s body, except the hands, from heat and/or flame. For protection of the wearer’s head and feet, the only items of protective clothing falling within the scope of this document are gaiters, hoods, and overboots. However, concerning hoods, requirements for visors and respiratory equipment are not given. The performance requirements set out in this document are applicable to protective clothing which could be worn for a wide range of end uses, where there is a need for clothing with limited flame spread properties and where the user can be exposed to radiant or convective or contact heat or to molten metal splashes. This document is not applicable to protective clothing that is specified by other International Standards (see Introduction).

This document specifies a method for measuring the thickness, length and width of test pieces of wood-based panels.

This document provides the minimum requirements for the knowledge, skills and effectiveness requirements of individuals performing testing activities for a conformance scheme using ISO/IEC 19790 and ISO/IEC 24759.

This document specifies requirements for the contents of a technical file to demonstrate the fulfilment of regulatory requirements for an endosseous dental implant that may include:

— implant body,

— implant abutment,

— abutment screw,

— implant connecting part

— implant connecting part screw

— prosthetic screw,

— implant cover screw,

— transmucosal healing component.

This document includes requirements for intended use and performance, design attributes, components, biocompatibility, manufacturing, packaging, sterilization, shelf life, marking, labelling and information supplied by the manufacturer.

The following devices are not included within the scope of this document:

— Dental implant incorporating animal or human components or bioactive characteristics,

— Custom-made devices that have no pre-fabricated connection,

— Implantable materials for bone filling and augmentation in oral and maxillofacial surgery,

— Membrane materials for guided tissue regeneration in oral and maxillofacial surgery,

— Specific instruments indicated to be used as part of a dental implant system.

NOTE 1 ISO 22794 gives the necessary content of technical files for implantable materials for bone filling and augmentation in oral and maxillofacial surgery. ISO 22803 gives the necessary content of technical files for membrane materials for guided tissue regeneration in oral and maxillofacial surgery. These materials require a separate technical file.

NOTE 2 ISO 13504 gives the general requirements for specific instruments indicated to be used as part of a dental implant system. These instruments require a separate technical file.

NOTE 3 Custom made devices are defined in the following document IMDRF/PMD WG/N49 - Definitions for Personalized Medical Devices.

ISO 6506-1:2014 specifies the method for the Brinell hardness test for metallic materials. It is applicable to both fixed location and portable hardness testing machines. For some specific materials and/or products, particular International Standards exist (e.g. ISO 4498) and make reference to this International Standard.

1.1 This document specifies safety and hygiene requirements for the design and manufacture of pizza dough sheeters which: a) are intended to be used: 1) for producing mainly pizza dough bases in shops and craft activities (i.e. pizzerias, takeaway pizza shops, craft bakeries and/or pastries, catering facilities, etc.); 2) for flattening and enlarging pieces of dough; 3) only for professional use; 4) by one operator at a time; 5) as standalone table-top machines only; 6) only with manual feeding of the pieces of pizza dough by gravity; 7) only with manual unloading of the flattened and enlarged pieces of pizza dough; b) are fitted with: 1) at most two pairs of flattening rollers, the rollers of a pair having the same diameter and the same length; 2) flattening rollers having: i. diameter ≤ 60 mm; ii. fixed direction of the rotation such as to move the pizza dough from top to bottom; iii. motor(s) for the rotation of the flattening rollers which transmit a power ≤ 0,50 kW to each pair of rollers 1.2 The following relevant hazards are not covered by this document: - hazards arising from the use of an automatic loading and/or unloading system; - hazards due to packaging, handling and transport; - hazards due to ambiguous and/or not easily understandable information needed to control the machine. This document does not deal with any specific requirement on noise emitted from pizza dough sheeters as the generated noise does not cause a relevant hazard. The significant hazards covered by this document are described in Annex A. 1.3 The following machines are excluded from the scope of this document: - domestic (household) appliances; - machines with automatic feeding of the pizza dough pieces and/or unloading of the pizza bases; - machines with feeding of the lumps other than by gravity; - machines to process other products than pizza dough; - bagel machines; - dough sheeters (see EN 1674:2015); - moulders (see EN 12041:2014); - sheeters for pasta dough processing; - experimental and testing machines under development by the manufacturer. 1.4 This document is not applicable to machines which are manufactured before the date of publication of this European Standard.

NOTE 1       There is guidance or rationale for this Clause contained in Clause A.2. This document specifies the requirements for information supplied by the manufacturer for a medical device or by the manufacturer for an accessory, as defined in 3.1. This document includes the generally applicable requirements for identification and labels on a medical device or accessory, the packaging, marking of a medical device or accessory, and accompanying information. This document does not specify the means by which the information is to be supplied. NOTE 2       Some authorities having jurisdiction impose different requirements for the identification, marking and documentation of a medical device or accessory. Specific requirements of medical device product standards or group standards take precedence over requirements of this document.

This document defines technical criteria and control procedures which are satisfied by hollow sleepers and bearers used in ballasted track with Vignole rails. The hollow sleepers and bearers designed for ballasted track can also be used in ballastless track. In this case, the requirements are defined by the customer.

The standard contains guidelines for developing and establishing policies and procedures for deletion of PII in organizations by specifying: — a harmonized terminology for PII deletion; — an approach for defining deletion rules in an efficient way; — a description of required documentation; and — a broad definition of roles, responsibilities and processes. This document is intended to be used by organizations where PII are stored or processed. This document does not address: — specific legal provision, as given by national law or specified in contracts; — specific deletion rules for particular clusters of PII as are to be defined by PII controllers for — processing PII; — deletion mechanisms; — reliability, security and suitability of deletion mechanisms; — specific techniques for de-identification of data.

ISO 15957:2015 defines the properties of load test dusts used for heating, ventilation, and air conditioning (HVAC) air filters as well as air cleaning equipment in laboratories. Test dusts used for evaluation of efficiency performance are not included.

This document covers the following as a guideline: - the basic design parameters to be provided to the HVAC unit manufacturer by the rolling stock manufacturer and the railway operator; - the basic test/inspection items, requirements and methods used by the HVAC unit manufacturer.

Building on the consolidated definitions of NBS, this document proposes a classification of NBS to support the development of an agreed terminology, the basis of the standardization process.