Ämnesområden

Kommittébeteckning: SIS/TK 156 (Plast)
Källa: CEN
Svarsdatum: den 26 jul 2021
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This document, in conjunction with ISO 11296-1, specifies requirements and test methods for pipes and fittings for the renovation of underground non-pressure drainage and sewerage networks by lining with a single rigid annulus of structural cementitious grout formed behind a plastics inner layer. This plastics layer serves as permanent formwork anchored to the grout.
This document is applicable to plastics inner layers and grout systems with or without steel reinforcement. It does not apply to the structural design of the lining system.
NOTE Systems with multiple annuli are available, but these are controlled by patent rights and not covered by this document.

Kommittébeteckning: SIS/TK 436 (Pyroteknik och explosiva varor för civilt bruk)
Källa: CEN
Svarsdatum: den 26 jul 2021
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This document defines various terms relating to the design, construction, performance, labelling and testing of category F4 fireworks.

Ämnesområden: Sprängämnen. Fyverkerier
Kommittébeteckning: SIS/TK 436 (Pyroteknik och explosiva varor för civilt bruk)
Källa: CEN
Svarsdatum: den 26 jul 2021
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This document specifies requirements for the construction, performance and protective packaging of Category F4 fireworks, as listed in EN 16261-1:—1.
This document does not apply for articles containing pyrotechnic compositions that include any of the following substances:
— arsenic or arsenic compounds;
— polychlorobenzenes;
— lead or lead compounds;
— mercury compounds;
— white phosphorus;
— picrates or picric acid.
In addition, any European regulation regarding forbidden substances is intended to be taken into account.

Ämnesområden: Sprängämnen. Fyverkerier
Kommittébeteckning: SIS/TK 436 (Pyroteknik och explosiva varor för civilt bruk)
Källa: CEN
Svarsdatum: den 26 jul 2021
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This document specifies test methods for fireworks of category F4.

Ämnesområden: Sprängämnen. Fyverkerier
Kommittébeteckning: SIS/TK 436 (Pyroteknik och explosiva varor för civilt bruk)
Källa: CEN
Svarsdatum: den 26 jul 2021
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This document specifies the minimum labelling requirements and the mandatory instructions for use for category F4 fireworks.

Ämnesområden: Sprängämnen. Fyverkerier
Kommittébeteckning: SIS/TK 436 (Pyroteknik och explosiva varor för civilt bruk)
Källa: CEN
Svarsdatum: den 26 jul 2021
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This document defines the terms and specifies the requirements, means of categorization, test methods, minimum labelling requirements and instructions for use, for ignition devices (except ignition devices for pyrotechnic articles for vehicles) of the following generic types:
— igniters;
— components for pyrotechnic trains;
— pyrotechnic cords and fuses;
— delay fuses;
— fuzes.
NOTE Safety fuses are subject to Directive 2014/28/EU and therefore not considered in this document.
This document does not apply for articles containing pyrotechnic compositions that include any of the following substances:
— arsenic or arsenic compounds;
— polychlorobenzenes;
— mercury compounds;
— white phosphorus;
— picrates or picric acid.

Kommittébeteckning: SIS/TK 413 (Provning av flytande och gasformiga bränslen)
Källa: CEN
Svarsdatum: den 27 jul 2021
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This draft European Standard defines a gas chromatographic analysis for the determination of the composition of fuel gases, as used in refinery heating gas. These results are used to calculate the carbon content and the lower calorific value. With this gas chromatographic analysis, an overall of 23 refinery heating gas components are determined in concentrations as typically found in refineries (see Table 1 for further details). Water is not analyzed. The results represent dry gases.
NOTE 1 Depending on the equipment used, there is a possibility to determine higher hydrocarbons as well.
NOTE 2 For the purposes of this draft European Standard, the terms “% (V/V)” is used to represent the volume fraction (φ).
IMPORTANT — This standard does not purport to address all of the safety problems associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations.

Kommittébeteckning: SIS/TK 611 (Informationsteknik)
Källa: ISO
Svarsdatum: den 28 jul 2021
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There are four parts to this specification, two are normative and two informative. The normative parts are:
1. The UAF Domain Metamodel (DMM) (this document) that provides the definition of concepts, relationships and
viewpoints for the framework. The UAF DMM is the basis for any implementation of UAF including non-
UML/SysML implementations.
2. The UAF Profile (UAFP) (see document dtc/19-06-15) is a UML/SysML implementation of the UAF DMM
The informative parts are:
3. The UAF Traceability, Annex A (see document dtc/19-06-17), which details the mappings between the UAF and the
various frameworks and languages that contribute to the UAF.
4. The UAF Example Model, Annex B (see document dtc/19-06-18), which illustrates a practical usage of UAF.
1.2 UAF

Kommittébeteckning: SIS/TK 611 (Informationsteknik)
Källa: ISO
Svarsdatum: den 28 jul 2021
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This document is a normative supplement to the UAF DMM document (c4i/19-06-16).

This document specifies a UAF profile to enable practitioners to express architectural model elements and organize them in a set of domains, model kinds, and view specification (specified in the UAF DMM) that support the specific needs of end users in defense and commercial industry.

UAFP 1.1 defines a set of stereotypes and model elements and relationships to satisfy the requirements of the UPDM 3.0

RFP and the UAF DMM. The profile specification documents the language architecture in terms of UML profiling mechanism.

A number of UAFP stereotypes inherit from SysML stereotypes where reuse of SysML semantics is necessary. The reusable portions of the SysML specification are not included directly in the specification but are made explicit through the stereotype inheritance.

 

Kommittébeteckning: SIS/TK 611 (Informationsteknik)
Källa: ISO
Svarsdatum: den 28 jul 2021
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This part of ISO/IEC 18047 defines test methods for determining the conformance of radio frequency identification devices (tags and interrogators) for item management with the specifications given in ISO/IEC 18000-3, but does not apply to the testing of conformity with regulatory or similar requirements.
The test methods require only that the mandatory functions, and any optional functions which are implemented, be verified. This can, in appropriate circumstances, be supplemented by further, application-specific functionality criteria that are not available in the general case.
This part of ISO/IEC 18047 includes the following interrogator and tag conformance parameters:
— mode-specific conformance parameters including nominal values and tolerances;
— parameters that apply directly affecting system functionality and inter-operability.
This part of ISO/IEC 18047 does not include the following:
— parameters that are already included in regulatory test requirements;
— high-level data encoding conformance test parameters (these are specified in ISO/IEC 15962).
Clause 5 describes all necessary conformance tests, while 5.3 applies to Mode 1 products only, 5.4 applies to Mode 2 products only and 5.5 applies to Mode 3 (mandatory ASK part) only.

Kommittébeteckning: SIS/TK 611 (Informationsteknik)
Källa: ISO
Svarsdatum: den 28 jul 2021
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This document provides guidance on the application of the taxonomy and use statements from ISO/IEC 19944-1 in real world scenarios, and how to develop extensions to the data taxonomy, data processing and use categories and data use statements.

Kommittébeteckning: SIS/TK 405 (Kärnenergi)
Källa: ISO
Svarsdatum: den 28 jul 2021
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This document specifies the characteristics of solid, liquid or gas of gamma emitting radionuclides reference measurement standards used for the calibration of gamma-ray spectrometers. These reference measurement standards are traceable to national measurement standards.
This document does not describe the procedures involved in the use of these reference measurement standards for the calibration of gamma-ray spectrometers. Such procedures are specified in ISO 20042 and other documents.
This document specifies recommended reference radiations for the calibration of gamma-ray spectrometers. This document covers, but is not restricted to, gamma emitters which emit photons in the energy range of 20 keV to 2 000 keV. These reference radiations are realized in the form of point sources or adequately extended sources specified in terms of activity which are traceable to national standards.
Liquid standards that are intended to be used for preparing extended standards by the laboratories are also in scope of this document. Reference materials (RMs) produced in accordance with ISO 17034 [2] are out of scope of this document.

Ämnesområden: Strålningsmätning
Kommittébeteckning: SIS/TK 405 (Kärnenergi)
Källa: ISO
Svarsdatum: den 28 jul 2021
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1.1 This is a practice for using a radiochromic optical waveguide dosimetry system to measure absorbed dose in materials irradiated by photons and high energy electrons in terms of absorbed dose to water. The radiochromic optical waveguide dosimetry system is generally used as a routine dosimetry system.
1.2 The optical waveguide dosimeter is classified as a Type II dosimeter on the basis of the complex effect of influence quantities (see ISO/ASTM Practice 52628).
1.3 This document is one of a set of standards that provides recommendations for properly implementing dosimetry in radiation processing, and describes a means of achieving compliance with the requirements of ISO/ASTM 52628 for an optical waveguide dosimetry system. It is intended to be read in conjunction with ISO/ASTM Practice 52628.
1.4 This practice applies to radiochromic optical waveguide
dosimeters that can be used within part or all of the specified
ranges as follows:
1.4.1 The absorbed dose range is from 1 to 20 000 Gy.
1.4.2 The absorbed dose rate is from 0.001 to 1000 Gy/s.
1.4.3 The radiation photon energy range is from 1 to 10
MeV.
1.4.4 The radiation electron energy range is from 3 to 25
MeV.
1.4.5 The irradiation temperature range is from –78 to
+60°C.
1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.
1.6 This international standard was developed in accordance
with internationally recognized principles on standardization
established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Kommittébeteckning: SIS/TK 254 (Järnväg, tunnelbana och spårväg)
Källa: CEN
Svarsdatum: den 29 jul 2021
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This part of EN15437 defines the minimum characteristics for the interface between a trackside Hot Axlebox Detector (HABD) and Rolling Stock (RST) that comply with the European Directives for Interoperability to ensure that the minimum functional requirement of the interface is achieved. The minimum requirements of the interface apply to: a) Rolling stock conforming to standard European railway gauge, that is 1435mm; b) Rolling stock axles fitted with outboard bearings; NOTE The design of rolling stock axles fitted with inboard bearings should respect the requirements set out in Note 2 of 5.2. c) Rolling stock with a maximum operational speed of up to and including 250 km/h; NOTE 1 That is conventional rail and class 2 high speed rail rolling stock as defined in the rolling stock TSIs. NOTE 2 Interoperable rolling stock designed for speeds above 250km/h (class 1 high speed rolling stock) are mandated to have on-board equipment for axlebox condition monitoring. The requirements for on-board equipment are described in part 2 of this standard which is currently under development. NOTE 3 Interoperable rolling stock designed for speeds above 250km/h (class 1 high speed rolling stock) are outside the scope of this Part of the standard. However, if class 1 high speed trains are required to be monitored by HABDs their target area should comply with the requirements specified in this standard, except where stated otherwise. d) Trackside HABDs that are required to monitor conventional rail and class 2 high speed rail rolling stock. The rolling stock requirements of the interface are described in Clause 5 and for the HABD requirements of the interface are described in Clause 6.

Kommittébeteckning: SIS/TK 254 (Järnväg, tunnelbana och spårväg)
Källa: CEN
Svarsdatum: den 29 jul 2021
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This European Standard defines the minimum performance requirements of on-board monitoring systems for axlebox condition monitoring by means of temperature measurements.
This European Standard refers to temperature monitoring of the axlebox. However, the design may be such that the rolling bearing itself is monitored directly.
The requirements of this European Standard are intended to apply equally to basic monitoring systems for monitoring the axlebox temperature through to more technically complex systems that may employ a combination of mechatronics.
To ensure the compatibility of monitoring systems and the effective monitoring functions, this European Standard defines the requirements in the following areas:
- equipment and characteristics;
- monitoring performance;
- operation & Interface.
This part of EN 15437 does not include:
- systems that do not give an indication to the driver;
- how an on-board monitoring system is structured and how it measures the temperature and identifies axlebox position. This is considered part of equipment design and not part of the functional requirements set out in this standard;
- operational requirements for acting on the information reported by the on-board monitoring system;
- operational requirements for conflict of information between trackside monitoring systems and on-board monitoring systems;
- maintenance requirements for on-board temperature monitoring system.

Kommittébeteckning: SIS/TK 236 (Fordonsdynamik)
Källa: ISO
Svarsdatum: den 30 jul 2021
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This document specifies the general conditions that apply when vehicle ride comfort properties are determined according to ISO test methods.
In particular, it specifies general conditions for:
— variables;
— measuring equipment and data processing;
— environment (test track and wind velocity);
— test vehicle preparation (tuning and loading);
— initial driving;
— test reports (general data and test conditions).
These items are of general significance, regardless of the specific vehicle ride comfort test method. They apply when vehicle ride comfort properties are determined, unless other conditions are required by the standard which is actually used for the test method.
This document is applicable to passenger cars as defined in ISO 3833 and light trucks.
NOTE The general conditions defined in existing vehicle dynamics standards are valid until a reference to this document is included.
This document is cited in many other standards without a dated reference. In the course of its revision, no change in the numbering of clauses, tables and figures is anticipated.
This documents mainly refers to road tests, but in many part may be applied also for bench tests.

Kommittébeteckning: SIS/TK 225 (Anläggningsmaskiner och gruvdrift)
Källa: CEN
Svarsdatum: den 30 jul 2021
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This document gives terms and definitions and an identification structure for classifying earth-moving machinery designed to perform the following operations:
— excavation;
— loading;
— transportation;
— drilling, spreading, compacting or trenching of earth, rock and other materials, during work, for example, on roads and dams, in quarries and mines and on building sites.
The purpose of this document is to provide a clear means to identify earth-moving machinery according to its function and design configurations and with secondary classifications according to its operating mass and control operator configuration.
Annex A provides a procedure based on the identification structure used by this document to classify the machinery and introduce detailed identifications consistent with the logic implied by the structure.
Annex B provides a hierarchy of the operator control configurations for earth-moving machinery.

Ämnesområden: Bränslesystem
Kommittébeteckning: SIS/TK 220 (Motorer i bilar)
Källa: CEN
Svarsdatum: den 30 jul 2021
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This document applies only to Dimethyl Ether refuelling connectors hereinafter referred to as devices, constructed entirely of new, unused parts and materials. Dimethyl Ether refuelling connectors consist of the following components, as applicable:
a) Nozzle (mounted on dispenser side).
b) Receptacle (mounted on vehicle).
This document applies to devices which use Dimethyl Ether as fuel, hereinafter referred to in this document as D15 [see 9.1 c)].
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.
NOTE All references to pressures (kPa) throughout this document are considered gauge pressures unless otherwise specified.

Kommittébeteckning: SIS/TK 360 (Brand och räddning)
Källa: CEN
Svarsdatum: den 2 aug 2021
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This document provides guidance on fulfilling the requirements contained in ISO 6183:2009, 6.4.1 and 7.4.1 and ISO 14520-1:2015, 5.2.1 (h) and 5.3 (h), in respect to over and under pressurization venting and post-discharge extract.
It considers the design, selection and installation of vents to safeguard the structural integrity of enclosures protected by fixed gaseous extinguishing systems and the post-discharge venting provisions where used.

Ämnesområden: Leksaker
Kommittébeteckning: SIS/TK 392 (Leksaker)
Källa: ISO
Svarsdatum: den 2 aug 2021
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The requirements in this document apply to all toys, i.e. any product or material designed or clearly intended for use in play by children under 14 years of age. They are applicable to a toy as it is initially received by the consumer and, in addition, they apply after a toy is subjected to reasonably foreseeable conditions of normal use and abuse unless specifically noted otherwise.
The requirements of this document specify acceptable criteria for structural characteristics of toys, such as shape, size, contour, spacing (e.g. rattles, small parts, sharp points and edges, and hinge-line clearances) as well as acceptable criteria for properties peculiar to certain categories of toy (e.g.
maximum kinetic energy values for non-resilient-tipped projectiles and minimum tip angles for certain ride-on toys).
This document specifies requirements and test methods for toys intended for use by children in various age groups from birth to 14 years. The requirements vary according to the age group for which a particular toy is intended. The requirements for a particular age group reflect the nature of the hazards and the expected mental and/or physical abilities of a child to cope with them.
This document also requires that appropriate warnings and/or instructions for use be given on certain toys or their packaging. Due to linguistic problems which may occur in different countries, the wording of these warnings and instructions is not specified but given as general information in Annex B. It should be noted that different legal requirements exist in many countries with regard to such marking.
This document does not purport to cover or include every conceivable potential hazard of a particular toy or toy category. Except for labelling requirements indicating the functional hazards and the age range
for which the toy is intended, this document has no requirements for those characteristics of toys which represent an inherent and recognized hazard which is integral to the function of the toy.
EXAMPLE 1 An example of such a hazard is the sharp point necessary for the proper function of a needle. The needle is a hazard which is well understood by the purchaser of a toy sewing kit, and the functional sharp-point hazard is communicated to the user as part of the normal educational process of learning to sew as well as at the point of purchase by means of cautionary labelling on the product's packaging.
EXAMPLE 2 As a further example, a two-wheeled toy scooter has inherent and recognized hazards associated with its use (e.g. instability during use, especially while learning). The potential hazards associated with its structural
characteristics (sharp edges, pinch hazards, etc.) will be minimized by compliance with the requirements of this document.
Products not included within the scope of this document are:
a) bicycles, except for those considered to be toys, i.e. those having a maximum saddle height of 435 mm
(see E.1, general);
b) slingshots;

NOTE “Slingshots” are also known as “catapults” and are usually held in the hand; examples are given in Figure
1. Toy versions of medieval catapults and trebuchets are not exempt from this document; an example is given in
Figure 2.

c) darts with metal points;
d) home and public playground equipment;
e) compressed air- and gas-operated guns and pistols (see E.1);
f) kites (except for the electric resistance of their strings, which is included);
g) model kits, hobby and craft items, in which the finished item is not primarily of play value;
h) sporting goods and equipment, camping goods, athletic equipment, musical instruments and
furniture; however, toys which are their counterparts are included.
It is recognized that there is often a fine distinction between, for example a musical instrument or a
sporting item and its toy counterpart. The intention of the manufacturer or distributor, as well as
normal use and reasonably foreseeable abuse, determines whether the item is a toy counterpart or
not;
i) models of aircraft, rockets, boats and land vehicles powered by combustion engines; however, toys
which are their counterparts are included (see E.1);

j) collectible products not intended for children under 14 years of age;
k) holiday decorations that are primarily intended for ornamental purposes;
l) aquatic equipment intended to be used in deep water, swimming-learning devices and flotation aids
for children such as swim-seats and swim-aids;
m) toys installed in public places (e.g. arcades and shopping centres);
n) puzzles having more than 500 pieces or without a picture, for specialists;
o) fireworks including percussion caps, except percussion caps specifically designed for toys;
p) products containing heating elements intended for use under the supervision of an adult in a teaching context;
q) steam engines;
r) video toys that can be connected to a video screen and operated at a nominal voltage greater than 24 V;
s) babies' pacifiers (dummies);
t) faithful reproduction of firearms;
u) electric ovens, irons or other functional products operated at a nominal voltage greater than 24 V;
v) bows for archery with an overall relaxed length exceeding 120 cm;
w) fashion jewellery for children (see E.1).