Search

Title Document Number
Sector Years
TC ICS

Catalogs

Traffic control equipment - Signal heads

This European Standard applies to signal heads with one or more signal lights of the colours red, yellow and/or green signal lights for road traffic with 200 mm and 300 mm roundels and to optical units to be integrated in signal heads to produce the individual signal lights. It defines the product characteristics for the visual, structural, environmental performances and testing of signal heads and optical units for pedestrian and road traffic use.


Road vertical signs - Variable message traffic signs

ISO 12966-1:2014 gives an overview of the gas chromatographic determination of fatty acids, free and bound, in animal and vegetable fats and oils following their conversion to fatty acid methyl esters (FAMEs).


Road traffic noise reducing devices - Specifications

ISO 14388-1:2014 provides a general introduction to acid sulfate soils and the approaches that can be used to measure the various components of this special group of soils and their potential to produce acidity. It provides a compilation of the test methods, identification and definitions of the symbols, terms, and acronyms used in this series of ISO 14388. While part of the decision-making process can involve the analysis of prepared wet or dry samples, ISO 14388-1:2014 specifically outlines the procedures that are involved for preparing and analysing dried samples.


Cryogenic vessels - Toughness requirements for materials at cryogenic temperature - Part 1: Temperatures below -80 °C

ISO 21028-1:2016 specifies the toughness requirements of metallic materials for use at a temperature below -80 °C to ensure their suitability for cryogenic vessels. ISO 21028-1:2016 is not applicable to unalloyed steels and cast materials.


Electricity metering equipment (AC) - General requirements, tests and test conditions - Part 11: Metering equipment

This part of IEC 62052 covers type tests for electricity metering equipment for indoor and outdoor application and applies to newly manufactured equipment designed to measure the electrical energy on 50 Hz or 60 Hz networks, with a voltage up to 600 V. It applies to electromechanical or static meters for indoor and outdoor application consisting of a measuring element and register(s) enclosed together in a meter case. It also applies to operation indicator(s) and test output(s). If the meter has a measuring element for more than one type of energy (multi-energy meters), or when other functional elements, such as maximum demand indicators, electronic tariff registers, time switches, ripple control receivers, data communication interfaces, etc. are enclosed in the meter case, then the relevant standards for these elements apply. It does not apply to: a) portable meters; b) data interfaces to the register of the meter; c) reference meters. For rack-mounted meters, the mechanical properties are not covered in this standard.


Electricity metering equipment (a.c.) - Particular requirements -

This part of IEC 62053 applies only to newly manufactured static watt-hour meters of accuracy classes 1 and 2, for the measurement of alternating current electrical active energy in 50 Hz or 60 Hz networks and it applies to their type tests only. It applies only to static watt-hour meters for indoor and outdoor application consisting of a measuring element and register(s) enclosed together in a meter case. It also applies to operation indicator(s) and test output(s). If the meter has a measuring element for more than one type of energy (multi-energy meters), or when other functional elements, like maximum demand indicators, electronic tariff registers, time switches, ripple control receivers, data communication interfaces, etc. are enclosed in the meter case, then the relevant standards for these elements also apply. It does not apply to: – watt-hour meters where the voltage across the connection terminals exceeds 600 V (lineto-line voltage for meters for polyphase systems); – portable meters; – data interfaces to the register of the meter; – reference meters. Regarding acceptance tests, a basic guideline is given in IEC 61358. The dependability aspect is covered by the standards of the IEC 62059 series.


Electricity metering equipment (a.c.) - Particular requirements -

This part of IEC 62053 applies only to newly manufactured static watt-hour meters of accuracy classes 1 and 2, for the measurement of alternating current electrical active energy in 50 Hz or 60 Hz networks and it applies to their type tests only. It applies only to static watt-hour meters for indoor and outdoor application consisting of a measuring element and register(s) enclosed together in a meter case. It also applies to operation indicator(s) and test output(s). If the meter has a measuring element for more than one type of energy (multi-energy meters), or when other functional elements, like maximum demand indicators, electronic tariff registers, time switches, ripple control receivers, data communication interfaces, etc. are enclosed in the meter case, then the relevant standards for these elements also apply. It does not apply to: – watt-hour meters where the voltage across the connection terminals exceeds 600 V (lineto- line voltage for meters for polyphase systems); – portable meters; – data interfaces to the register of the meter; – reference meters. The safety aspect is covered by IEC 62052-31:2015. Regarding acceptance tests, see IEC 62058-11:2008 and IEC 62058-31:2008. The dependability aspect is covered by the standards of the IEC 62059 series.


Electricity metering equipment (a.c.) - Particular Requirements -

This part of IEC 62053 applies only to newly manufactured static watt-hour meters of accuracy classes 0,2 S and 0,5 S, for the measurement of alternating current electrical active energy in 50 Hz or 60 Hz networks and it applies to their type tests only. It applies only to transformer-operated static watt-hour meters for indoor application consisting of a measuring element and register(s) enclosed together in a meter case. It also applies to operation indicator(s) and test output(s). If the meter has a measuring element for more than one type of energy (multi-energy meters), or when other functional elements, like maximum demand indicators, electronic tariff registers, time switches, ripple control receivers, data communication interfaces, etc. are enclosed in the meter case, then the relevant standards for these elements also apply. NOTE IEC 60044-1 describes transformers having a measuring range of 0,01 In to 1,2 In, or of 0,05 In to 1,5 In, or of 0,05 In to 2 In and transformers having a measuring range of 0,01 In to 1,2 In for accuracy classes 0,2 S and 0,5 S. As the measuring ranges of a meter and its associated transformers have to be matched and as only transformers of classes 0,2 S and 0,5 S have the accuracy required to operate the meters of this standard, the measuring range of the meter will be 0,01 In to 1,2 In. It does not apply to: – watt-hour meters where the voltage across the connection terminals exceeds 600 V (lineto- line voltage for meters for polyphase systems); – portable meters and meters for outdoor use; – data interfaces to the register of the meter; – reference meters. The dependability aspect is covered by the documents of the IEC 62059 series. The safety aspect is covered by IEC 62052-31:2015. Regarding acceptance tests, see IEC 62058-11:2008 and IEC 62058-31:2008.


Information technology — Security techniques — Vulnerability disclosure

This International Standard gives guidelines for the disclosure of potential vulnerabilities in products and online services. This International Standard details the methods a vendor should use to address issues related to vulnerability disclosure. This International Standard a) provides guidelines for vendors on how to receive information about potential vulnerabilities in their products or online services, b) provides guidelines for vendors on how to disseminate resolution information about vulnerabilities in their products or online services, c) provides the information items that should be produced through the implementation of a vendor’s vulnerability disclosure process, and d) provides examples of content that should be included in the information items. This International Standard is applicable to vendors who respond to external reports of vulnerabilities in their products or online services.


Information Technology — Security Techniques — Physical

Physical security mechanisms are employed by cryptographic modules where the protection of the modules sensitive security parameters is desired. This Technical Specification addresses how security assurance can be stated for products where the risk of the security environment requires the support of such mechanisms. This Technical Specification addresses the following topics: — a survey of physical security attacks directed against different types of hardware embodiments including a description of known physical attacks, ranging from simple attacks that require minimal skill or resources, to complex attacks that require trained, technical people and considerable resources; — guidance on the principles, best practices and techniques for the design of tamper protection mechanisms and methods for the mitigation of those attacks; and — guidance on the evaluation or testing of hardware tamper protection mechanisms and references to current standards and test programs that address hardware tamper evaluation and testing. The information in this Technical Specification is useful for product developers designing hardware security implementations, and testing or evaluation of the final product. The intent is to identify protection methods and attack methods in terms of complexity, cost and risk to the assets being protected. In this way cost effective protection can be produced across a wide range of systems and needs.


Information technology — Security techniques — Vulnerability

ISO/IEC 30111:2013 gives guidelines for how to process and resolve potential vulnerability information in a product or online service. ISO/IEC 30111:2013 is applicable to vendors involved in handling vulnerabilities.


Ventilation for buildings - Fire dampers

This European Standard applies to fire dampers that are to be used in conjunction with fire separating elements to maintain fire compartments. This standard specifies requirements and gives reference to the test methods defined for fire dampers, which are intended to be installed in Heating, Ventilating and Air Conditioning (HVAC) installations in buildings. All fire dampers close automatically in response to raised temperatures indicating fire. Details are given for the provision of evaluation of conformity and marking of fire dampers. To avoid duplication reference is made to a variety of other standards. To this end it is advised to read this standard in conjunction with EN 1366-2 and EN 1363-1 for details of the fire resistance testing and EN 13501-3 for classification. Fire dampers meeting requirements of this standard may be considered suitable for both ducted and unducted applications. This standard has not considered in detail the detrimental and/or corrosive effects that may be caused by chemical processes present in the atmosphere, which are drawn through the system intentionally or inadvertently and therefore does not apply to fire dampers used in such applications. An indication of salt spray corrosion may be determined using the method described in Annex B.


Fire classification of construction products and building elements

This document provides the reaction to fire classification procedure for all construction products, including products incorporated within building elements with the exception of power, control and communication cables which are covered by EN 13501-6. Products are considered in relation to their end use application. This document applies to three categories, which are treated separately in this document: - construction products, excluding floorings and linear pipe thermal insulation products; - floorings; - linear pipe thermal insulation products. NOTE For CE marking of construction products under the Construction Product Regulation ((EC) 305/2011) the NPD option can be used when no reaction of fire performance is to be declared.


NULL

This European Standard specifies the procedure for classification of construction products and building elements using data from fire resistance and smoke leakage tests which are within the direct field of application of the relevant test method. Classification on the basis of extended application of test results is also included in the scope of this European Standard. This European Standard deals with: a) loadbearing elements without a fire separating function: — walls; — floors; — roofs; — beams; — columns; — balconies; — walkways; — stairs. b) loadbearing elements with a fire separating function, with or without glazing, services and fixtures: — walls; — floors; — roofs; — raised floors. c) products and systems for protecting elements or parts of the works: — ceilings with no independent fire resistance; — fire protective coatings, claddings and screens; d) non-loadbearing elements or parts of works, with or without glazing, services and fixtures: — partitions; — facades (curtain walls) and external walls; — ceilings with independent fire resistance; — raised floors; — fire doors and shutters and their closing devices;


Fire classification of construction products and building elements

This European Standard specifies the procedure for classification of the resistance to fire performance of construction products and building elements used as components of building service installations, using data from fire resistance tests which are within the direct field of application of the relevant test method. Classification on the basis of extended application of test results is also included in the scope of this European Standard. Products/elements for use in ventilation systems include (excluding smoke and heat exhaust ventilation): - fire resisting ducts; - fire dampers. Relevant test methods which have been prepared for these products/elements are listed in Clause 2.


NULL

This European Standard specifies the procedure for classification of components of smoke control systems, using data from fire resistance tests which are within the field of application of the relevant test methods. Classification on the basis of extended application of test results is also included in the scope of this European Standard. Products covered by this European Standard are: - smoke control ducts; - smoke control dampers; - smoke barriers; - powered smoke and heat exhaust ventilators (fans), including connectors; - natural smoke and heat exhaust ventilators. Relevant documents which include the relevant test methods which have been prepared for these products are listed in Clause 2.


NULL

This European Standard provides the fire performance classification procedures for roofs/roof coverings exposed to external fire based on the four test methods given in CEN/TS 1187:2012 and the relevant extended application rules. For the classification of a roof/roof covering, only those test methods and those application rules need to be applied for which the corresponding classification is envisaged. Products are considered in relation to their end use application. NOTE The distinction between roofs with a steep slope and facades, in terms of the test and classification standard to be applied, may be subject to national regulations. General information on the four test methods in CEN/TS 1187 is given in Annex A.


Fire classification of construction products and building elements

This European Standard provides the reaction to fire classification procedure for electric cables. NOTE For the purpose of this European Standard the term "electric cables" covers all power, control and communication cables, including optical fibre cables.


Surface active agents - Vocabulary

Defines terms frequently used in this field. Gives, in particular, specific terms for textiles applications, dry cleaning, etc., but terms for other applications may be introduced. Annex A contains scientific terms directly related to surface phenomena and to the preparation of surface active agents and Annex B general terms non-specific to the field of surface active agents.


Plastics — Methods of exposure to solar radiation — Part 3:Intensified weathering using concentrated solar radiation

ISO 877-3:2018 specifies a method for exposing plastics to concentrated solar radiation using reflecting concentrators to accelerate the weathering processes. The purpose is to assess property changes produced after specified stages of such exposures. The reflecting concentrators used in these exposures are sometimes referred to as "Fresnel reflectors" because in cross-section the array of mirrors used to concentrate the solar radiation resembles the cross-section of a Fresnel lens. General guidance concerning the scope of the ISO 877 series is given in ISO 877‑1. NOTE Additional information about solar concentrating exposures, including a partial list of standards in which they are specified, is given in the Bibliography.


Environmental aspects of ductile iron pipe systems for water and sewerage applications

This Technical Report applies to all water and sewerage applications of ductile iron pipe systems and provides a structure on how to identify and consider environmental aspects and potential environmental impacts of ductile iron pipe systems throughout their life cycle. This Technical Report gives guidance on how the life cycle of ductile iron pipelines should be considered in accordance with EN ISO 14044. This Technical Report also includes health and safety aspects related to the production, use and recycling of ductile iron pipe systems.


Oil of blue chamomile [Chamomilla recutita (L.) Rauschert syn. Matricaria chamomilla auct.]

ISO 19332:2007 specifies certain characteristics of the oil of blue chamomile [Chamomilla recutita (L.) Rauschert syn. Matricaria chamomilla auct.], in order to facilitate assessment of its quality.


Essential oil of rose, Chinese Kushui type (Rosa sertata × Rosa rugosa)

ISO 25157:2013 specifies certain characteristics of the essential oil of rose, Chinese Kushui type (Rosa sertata × Rosa rugosa) cultivated mainly in China, in order to facilitate assessment of its quality.


Oil of lime expressed, Persian type(Citrus latifolia Tanaka)

ISO 23954:2010 specifies certain characteristics of the oil of lime expressed, Persian type (Citrus latifolia Tanaka) in order to facilitate assessment of its quality.


Oil of dwarf pine (Pinus mugo Turra)

ISO 21093:2003 specifies certain characteristics of oil of dwarf pine oil (Pinus mugo Turra), in order to facilitate assessment of its quality.


Oils of orris rhizome (Iris pallida Lam. or Iris germanica L.) —Determination of irone content — Method using gas chromatography on a capillary column

ISO 18054:2004 specifies a method for the determination of irone content in essential oil of orris rhizome (Iris pallida Lam. or Iris germanica L.) using gas chromatography on a capillary column.


Oil of bitter fennel (Foeniculum vulgar eMill. ssp. vulgare var. vulgare)

ISO 17412 specifies certain characteristics of the oil of bitter fennel (Foeniculum vulgare Mill. ssp. vulgare var. vulgare), in order to facilitate assessment of its quality.


Oil of magnolia flower, China type (Michelia × alba DC)

ISO 17382:2007 specifies certain characteristics of the oil of Magnolia flower, China type (Michelia x alba DC), in order to facilitate assessment of its quality.


Essential oils — Analysis by gas chromatography on chiral capillary columns — General method

ISO 22972:2004 specifies a general method for the analysis of essential oils by gas chromatography on capillary chiral columns, for the purpose of determining the specific enantiomeric excess or distribution of the chiral compounds contained in the essential oils.


Oil of Australian sandalwood [Santalumspicatum (R.Br.) A.DC.]

ISO 22769:2009 specifies certain characteristics of the oil of Australian sandalwood [Santalum spicatum (R.Br.) A.DC.], with a view to facilitating the assessment of its quality.


Oil of wintergreen, China [Gaultheria yunnanensis (Franch.) Rehd.], redistilled

ISO 21390:2005 specifies certain characteristics of the oil of wintergreen, China [Gaultheria yunnanensis (Franch.) Rehd.], redistilled, in order to facilitate assessment of its quality.


Fertilizers -- Determination of different forms of nitrogen in the same sample, containing nitrogen as nitric, ammoniacal, urea and cyanamide nitrogen

ISO 15604:2016 specifies a method for the determination of any one form of nitrogen in the presence of any other form. The method is applicable to any fertilizer provided for in the Regulation (EC) No 2003/2003, Annex I[2] containing nitrogen in various forms.


Fertilizers and soil conditioners -- Determination of arsenic, cadmium, chromium, lead and mercury contents

ISO 17318:2015 specifies the test methods for determination of metals soluble in nitric acid: arsenic, cadmium, chromium, lead, and mercury contents in fertilizers. ISO 17318:2015 is applicable to the analysis of arsenic, cadmium, chromium, lead, and mercury contents in fertilizers. Special attention should be given when analysing some micro-nutrients fertilizers.


Fertilizers and soil conditioners —Determination of watersoluble potassium content — Potassium tetraphenylborate gravimetric method

ISO 17319:2015 specifies a gravimetric method for the determination of the water-soluble potassium content of test solutions of fertilizers. It is suitable for use in arbitration and for reference purposes. ISO 17319:2015 is applicable to those fertilizers containing more than 1,0 % K2O or equivalent amount of K content.


Fertilizers -- Determination of ammoniacal nitrogen

ISO 25475:2016 specifies a method for the determination of the ammoniacal nitrogen content in fertilizers. The method is applicable to all nitrogenous fertilizers including compound fertilizers, in which nitrogen is found exclusively either in the form of ammonium salts or ammonium salts together with nitrates. ISO 25475:2016 is not applicable to fertilizers containing urea, cyanamide or other organic nitrogenous compounds.


Fertilizers and soil conditioners -- Analytical methods for Sulfur Coated Urea (SCU)

This International Standard specifies the position, dimensions, content and exposure of human-readable, latent image information applied onto 35 mm colour-print film. This information is normally exposed onto the film at the time of manufacture.This International Standard also specifies spectral densities and a film area which is not to be exposed by the film manufacturer, thus leaving it available for subsequent customer data recording such as soundtrack recording, etc.


Fertilizers and soil conditioners -- Determination of biuret content of urea-based fertilizers -- HPLC method

ISO 18643:2016 specifies the test procedure for determination of the biuret content in liquid and solid urea-based fertilizers based on the HPLC method.


Fertilizers -- Determination of urea condensates using highperformance liquid chromatography (HPLC) Isobutylidenediurea and crotonylidenediurea (method A) and methylen-urea oligomers (method B

ISO 25705:2016 specifies methods for the determination of isobutylidene diurea (IBDU), Crotonylidene diurea (CDU) (method A) and methylene-urea oligomers (MU) (method B) in fertilizers using high-performance liquid chromatography (HPLC). The method is applicable to all fertilizers which do not contain interfering organic compounds.


Natural stone - Rough slabs - Requirements

This European Standard specifies requirements for rough slabs of natural stone from which products for use in buildings or commemorative stones and other similar applications are made. It does not cover artificially agglomerated stony material nor installation


Agglomerated stone - Modular tiles for flooring and stairs (internal and external)

This European Standard specifies requirements and appropriate test methods for modular tiles of agglomerated stone which are made for use as flooring and stairs for internal and external uses, fixed by mortar or adhesives. It also provides for the evaluation of conformity and marking of the products to the requirements of this European Standard. This European Standard is not applicable to terrazzo tiles covered by EN 13748-1 and EN 13748-2 (see Bibliography).


Natural stone products - Slabs for floors and stairs - Requirements

This European Standard specifies requirements for flat natural stone slabs used as paving units for internal (including enclosed public transport premises) and/or external uses in floors and stairs including skirtings. This European Standard does not cover mineral aggregates and artificial agglomerated stone material and does not cover installation.


Natural stone products - Slabs for cladding - Requirements

This European Standard specifies requirements for slabs of natural stone that are made for use as cladding for internal and external wall and ceiling finishes. This European Standard does not cover aggregates and artificially agglomerated stone material and does not cover installation. Furthermore, this European Standard does not cover roofing slates used as external cladding and slates and stone products for discontinuous roofing. This European Standard does not consider fixing by means of mortar and adhesives.


Safety of amusement rides and amusement devices —Part 2: Operation and use

ISO 17842-2:2015 specifies the minimum requirements necessary to ensure the safe maintenance, operation, inspection and testing of the following: mobile, temporary or permanently installed machinery and structures, e.g. roundabouts, swings, boats, Ferris wheels, roller coasters, chutes, grandstands, membrane or textile structures, booths, stages, side shows, and structures for artistic aerial displays. These devices are intended to be installed both repeatedly without degradation or loss of integrity, and temporarily or permanently in fairgrounds and amusement parks or any other locations. Fixed grandstands, construction site installations, scaffolding, removable agricultural structures and simple coin operated children's amusement devices, carrying not more than three children, are not covered.


Safety of amusement rides and amusement devices — Part 3: Requirements for inspection during design, manufacture, operation and use

ISO 17842-3:2015 defines requirements for the necessary inspections, in accordance with ISO/IEC 17020, of amusement devices designed, manufactured, operated and used according to ISO 17842 1 and ISO 17842 2.


Swimming pool equipment - Part 10: Additional specific safety requirements and test methods for diving platforms, diving springboards and associated equipment

This part of EN 13451 specifies safety requirements for diving platforms, diving springboards and associated equipment in addition to the general safety requirements of EN 13451-1 and should be read in conjunction with it.


Swimming pool equipment - Part 11: Additional specific safety requirements and test methods for moveable pool floors and moveable bulkheads

This part of EN 13451 specifies safety requirements for moveable pool floors and moveable bulkheads in addition to the general safety requirements of EN 13451-1 and should be read in conjunction with it. The requirements of this part of EN 13451 take priority over those in EN 13451-1. This part of EN 13451 is applicable to manufactured moveable pool floors and moveable bulkheads for use in classified swimming pools as specified in EN 15288-1 and EN 15288-2.


Energy drinks

This part of EN 13451 is applicable to platforms and springboards, and associated equipment for use in classified swimming pools as specified in EN 15288-1 and EN 15288-2.


Essential oil of molle (Schinusareira L.), Argentinean type

ISO 16835:2014 specifies test methods for the thermal expansion of refractory products. It describes a method for determining the linear thermal expansion percentage, the linear thermal expansion curve, and the linear thermal expansion coefficient. ISO 16835:2014 includes the following three test methods for the thermal expansion of refractory products: a) a contact method with a cylindrical test piece; b) a contact method with a rod test piece; c) a non-contact method.


Essential oil of ginger [Zingiber officinale Roscoe]

ISO 16928:2014 specifies certain characteristics of the essential oil of ginger (Zingiber officinale Roscoe) cultivated in China, India and West Africa, in order to facilitate assessment of its quality.


Energy efficiency and renewable energy sources — Common international terminology —Part 1:Energy efficiency

ISO/IEC 13273-1:2015 contains transverse concepts and their definitions in the subject fields of energy efficiency. This horizontal standard is primarily intended for use by technical committees in the preparation of standards in accordance with the principles laid down in IEC Guide 108.