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Double acting hydraulic rescue tools for fire and rescue service use - Safety and performance requirements

This European Standard specifies safety and performance requirements for double acting hydraulic rescue tools manufactured after the date of publication. It is applicable to double acting hydraulic rescue tool systems which are intended for use by the firefighting and rescue services, principally for cutting through, spreading or pushing apart the structural parts of road vehicles, ships, trains, aircraft and building structures involved in accidents. They consist of a separate power pack, the tool[s] and the necessary interconnections and intended accessories, as defined in Clause 3 – Terms and definitions. This document deals with all significant hazards, hazardous situations or hazardous events relevant to the machinery, when it is used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer. NOTE 1 The aim is to assist while extracting the casualties or to create a working space for paramedical services taking the local conditions into account. It is not applicable to additional requirements for: a) operation in severe conditions (e.g. extreme environmental conditions such as: temperatures outside the range –20 °C up to +55 °C, corrosive environment, tropical environment, contaminating environments, strong magnetic fields, potentially explosive atmospheres); b) the risk directly arising from the means provided for the portability, transportability and mobility of double-acting hydraulic rescue tools during periods of their operation. NOTE 2 For the EU/EEA other Directives can be applicable to the equipment in the scope, for example the Electro Magnetic Compatibility Directive.


Lifting bag systems for fire and rescue service use - Safety and performance requirements

This European Standard specifies requirements for lifting bag systems, where intended operation is inflation by compressed air and used primarily by fire and rescue services. This European Standard applies to lifting bag systems including some or all of the following components:  hose assemblies and couplings;  regulators;  control devices;  pressure indicators;  safety valves;  lifting bags. This European Standard applies to lifting bag systems intended for operation under ambient temperatures between -20 °C and 55 °C. This European Standard deals with all significant hazards, hazardous situations and events during the commissioning, operation and maintenance arising from a lifting bag system when it is used as intended and under the conditions of misuse which are reasonably foreseeable by the manufacturer (see Clause 4). This European Standard specifies minimum performance requirements and test methods for lifting bag systems. This European Standard does not establish the additional requirements for: a) operation in severe conditions ( e.g. extreme environmental conditions such as: temperatures outside the range from -20 °C to + 55 °C, corrosive environment, tropical environment, contaminating environments, strong magnetic fields, potentially explosive atmospheres); NOTE 1 If use of the lifting bag system is foreseen in severe conditions, this should be agreed between the purchaser and the manufacturer at the time of ordering. In this case an additional risk analysis should be carried out. Additional measures and additional information for use may be necessary. b) risk directly arising from any means for handling or transportation of the lifting bag system by equipment other than that designed as part of the lifting bag; c) lifting bag systems manufactured for specialized use, e.g. the lifting of persons or heavy recovery where exceptional stroke movement is required; d) any hazard arising from the source of compressed air, except where this is a manually operated air pump. NOTE 2 Where the source is from an air compressor or from a pressurised cylinder or other similar source, it is assumed that the source conforms to an appropriate European Standard or legislation. This European Standard is not dealing with noise, as it is not considered to be a significant hazard. This European Standard is not applicable to lifting bag systems which are manufactured before the date of its publication by CEN.


Fire-fighting pumps - Portable pumps - Safety and performance requirements, tests

This document applies to portable pumps using fire-fighting centrifugal pumps as defined in EN 1028, driven by an internal combustion engine and not intended to be permanently installed in fire-fighting and rescue service vehicles and not intended for prolonged unattended operation. NOTE 1 If use of the portable pump is foreseen for prolonged unattended operation, this should be agreed between the purchaser and the manufacturer or the manufacturer‘s authorized representative at the time of ordering. In this case an additional risk analysis should be carried out. This document deals with all significant hazards, hazardous situations and events relevant to portable firefighting pumps as described above, when they are used as intended and under the conditions foreseen by the manufacturer (see Clause 4). It addresses the design, setting up, and operation of the portable pump. This document also specifies performance requirements for portable pumps in its scope. This document applies to portable pumps used in ambient temperatures between –15 °C and + 35 °C. NOTE 2 Additional measures may be necessary for ambient temperatures beyond the limits –15 °C and + 35 °C This document does not cover the effect on performance of water inlet temperatures above + 20°C. This document does not contain any requirements for inlet and outlet connection couplings. NOTE 3 For inlet and outlet connection couplings national regulations apply. The design should be agreed at the time of ordering between purchaser and the manufacturer or manufacturer‘s authorized representative. This document does not contain specific requirements for the driving engine but deals with the hazards related to the interface between engine and pump. While producing this document it was assumed that:  only trained persons operate and maintain the machine;  components are kept in good repair and working order, so that the required characteristics are maintained. The noise test code considered in this document (see Annex E) will allow experience in the measurement of noise emission to be gained with a view to future revisions. This document does not apply to portable pumps that are manufactured before the date of publication by CEN of this document.


Fire-fighting hoses - Non-percolating layflat hoses for fixed systems

This European Standard specifies the requirements and test methods for non-percolating layflat hoses for fixed systems. The hoses are intended for use at a maximum working pressure of 1,5 MPa over a range of inside diameters from 25 mm to 52 mm. This European Standard applies exclusively to hoses for fire-fighting purposes intended for use at a minimum ambient temperature of −20 °C in normal conditions, and a minimum temperature of −30 °C in colder climatic conditions and a maximum ambient temperature of +60 °C. Hoses conforming to this standard should be used with fire hose couplings conforming to the relevant national standards for couplings. NOTE 1 Hoses for use at ambient temperatures below −20 °C can be supplied if they have been tested at the specified lower temperature in accordance with 6.4 and identified by their marking in Clause 8 f). Hoses in marine applications and/or aggressive environments to be used with wall hydrants as specified in EN 671-2 can conform to the requirements of this standard. NOTE 2 All pressures are gauge pressures and are expressed in megapascals1.


Fire-fighting hoses - Semi-rigid delivery hoses and hose assemblies for pumps and vehicles

This European Standard specifies the requirements and test methods for semi-rigid hoses for use on fire-fighting vehicles and trailer pumps. The hoses are intended for use at a maximum working pressure of 1,5 MPa for normal pressure hoses (category I) and 4,0 MPa for high pressure hoses (category II). The hoses are further subdivided into types and classes (see Clause 4). This European Standard applies to hoses for fire-fighting purposes intended for use at ambient conditions within the temperature range −20 °C to +60 °C. NOTE 1 Hoses for use at ambient temperatures below −20 °C can be supplied if they have been tested at the specified lower temperature in accordance with 6.5 and identified by their marking in Clause 8 h). Hoses conforming to this standard are intended for use with fire hose couplings conforming to the relevant national standards for couplings.’ Requirements are also given for hose assemblies (see Clause 9) where these are fitted by the hose manufacturer. NOTE 2 All pressures are expressed in megapascals. 1 MPa = 10 bar


Fire-fighting hoses - Semi-rigid hoses for fixed systems

This European Standard specifies the requirements and test methods for semi-rigid hoses for fire-fighting purposes for use with fixed systems. The hoses are intended for use at a maximum working pressure of 1,2 MPa for hoses of 19 mm and 25 mm inside diameter and 0,7 MPa for hoses of 33 mm inside diameter. Hoses conforming to this European Standard are intended for applications where long intervals can occur between the occasions of use, for example on fixed fire hose reels in buildings and other construction works. This European Standard applies exclusively to hoses for fire-fighting purposes intended for use at ambient conditions in non-aggressive or non-corrosive atmospheres within the temperature range −20 °C to +60 °C. NOTE 1 Hoses for use at ambient temperatures below −20°C can be supplied if they have been tested at the specified lower temperature in accordance with 6.4 and identified by their marking in Clause 8 f). NOTE 2 All pressures are expressed in megapascals. 1 MPa = 10


Gypsum plasterboards - Definitions, requirements and test methods

This document specifies the characteristics and performance of gypsum plasterboards intended to be used in building construction works including those intended for secondary manufacturing operations. It includes boards designed to receive either direct surface decoration or gypsum plaster. This document covers the following product performance characteristics: reaction to fire, water vapour permeability, flexural strength (breaking load), impact resistance and thermal resistance. The following performance characteristics are linked to systems assembled with plasterboards: shear strength, fire resistance, impact resistance !," direct airborne sound insulation and acoustic absorption to be measured according to the corresponding European test methods. If required, tests should be done on assembled systems simulating the end use conditions. This document covers also additional technical characteristics that are of importance for the use and acceptance of the product by the Construction Industry and the reference tests for these characteristics. It provides for the evaluation of conformity of the product to this document. This document does not cover plasterboards, which have been subject to any secondary manufacturing operations (e.g. insulating composite panels, plasterboards with thin lamination, etc.).


Glass in building - Glass blocks and glass pavers - Part 1: Definitions and description

This European Standard specifies form/shape, dimensional tolerances and the material characteristics of glass blocks and glass pavers for use in buildings.


Glass in building - Glass blocks and glass pavers - Part 2: Evaluation of conformity/Product standard

This document covers the evaluation of conformity and the factory production control requirements of and recommendations for glass block and glass paver units. This standard does not cover panels incorporating glass blocks or glass paver units


Earth-moving machinery — Visual display of machine operation

This International Standard specifies the machine operation functional information to be presented by the visual displays of earth-moving machinery for a seated operator. It is applicable to earth-moving machinery as defined in ISO 6165


Earth-moving machinery — Field of vision of surveillance and rear-view mirrors — Part 1: Test methods

This part of ISO 14401 specifies a static test method for determining the field of vision provided by surveillance and rear-view mirrors fitted to earth-moving machinery as defined in ISO 6165


Earth-moving machinery — Field of vision of surveillance and rear-view mirrors —Part 2: Performance criteria

This part of ISO 14401 specifies criteria for the field-of-vision performance of surveillance and rear-view mirrors on earth-moving machinery. It is applicable to the ride-on machines of the machine families and sizes listed herein (see Annex A), used both on and off public roads. NOTE 1 For machines not listed in Annex A, the criteria of similar machine types and/or sizes can be used as guidance for the fitting of optional mirrors to these machines. NOTE 2 Additional national road regulations can apply for machines travelling on public roads


Earth-moving machinery — Articulated frame lock — Performance requirements

This International Standard defines performance requirements for an articulated frame lock designed to prevent unintended machine articulation of earth-moving machinery as defined in ISO 6165 and with an articulated frame during either shipment or maintenance.


Earth-moving machinery — Hydraulic excavators — Lift capacity

This International Standard provides a uniform method for calculating the lift capacity of hydraulic excavators and specifies a procedure for verifying the calculations. It is applicable to the limits of both hydraulic lift capacity and machine-tipping, and establishes the rated lift capacity for hydraulic excavators as defined in ISO 7135.


Earth-moving machinery — Operator

This International Standard provides a basis for content and methods used for operator training for earth-moving machinery as defined in ISO 6165. The training in turn provides the basis for developing operators of earth-moving machinery who are knowledgeable and understand the manufacturer’s instructions for safe and proper operation and routine maintenance. It establishes criteria for evaluating the competency of a person who operates and could perform routine maintenance of earth-moving machinery, but does not specify any procedure for proficiency testing or assessment of the operator’s competence of operating and maintaining earth-moving machinery. It is not intended to substitute for national or regional requirements or regulations related to operator training.


Cranes -- Crane operating manual -- Part 1: General

This part of ISO 9928 specifies general requirements for the contents of a crane operating manual


Engins de terrassement — Moyens d'accès

ISO 2867 specifies criteria for systems that provide access to the operator station and to routine maintenance points on earth-moving machinery as defined in ISO 6165. It is applicable to the access systems (e.g. enclosure openings, platforms, guardrails, handrails and handholds, stairways and steps, ladders) on such machines parked in accordance with the manufacturer's instructions. Its criteria are based on the 5th to 95th percentile operator dimensions as defined in ISO 3411. The general principles set out in ISO 2867:2011 can be used for the selection of fixed and/or portable access systems for repairs, assembly, disassembly and longer interval maintenance. It deals with the following significant hazards, hazardous situations and events: slip, trip and fall of persons, unhealthy postures and excessive effort.


Earth-moving machinery -- Operator station and maintenance areas -- Bluntness of edges

This standard defines the permissible limits of the sharpness of edges and corners, so reduce the risk of injury to the operator or maintenance personnel while operating earth-moving machinery and performing maintenance.


Furniture - Strength, durability and safety - Requirements for non-domestic seating

This European Standard specifies requirements for the safety, strength and durability of all types of non-domestic seating intended to be used by adults with a weight of not more than 110 kg, including office visitor chairs. This European Standard does not apply to ranked seating, office work chairs, chairs for educational institutions, outdoor seating and to links for linked seating for which European Standards or drafts exist. It does also not apply to work chairs for industrial use. This European Standard does not include requirements for the durability of upholstery materials, castors, reclining and tilting mechanisms and seat height adjustment mechanisms. This European Standard does not include requirements for the resistance to ageing, degradation and flammability. Annex A contains additional tests. Annex B contains information on the level of test severity in relation to applications. Annex C contains dimensional requirements for office visitor chairs.


Cranes — Classification — Part 2:Mobile cranes

ISO 4301-2:2009 establishes a system of classification for mobile cranes and related crane mechanisms, based on the number of operating cycles to be carried out during a crane's expected life, representing a nominal state of loading. It is applicable to the basic types of self-propelled mobile crane and their parts as defined in ISO 4306-2.


Cranes - Classification - Part 3:Tower cranes

Establishes a classification of tower cranes as defined in ISO 4306-3, according to their category (1: in irregular use or having a light state of loading, 2: for building, 3: in regular use or having a heavy state of loading). Applies to the classification of tower cranes for building and general construction work that can be dismantled, permanently erected tower cranes, hammerhead cranes, dockside and shipbuilders' tower cranes. Does not apply to the classification of power-driven mobile jib cranes which may be fitted with a tower attachment and erection masts, with or without jibs.


Electricity metering equipment (AC) - Acceptance inspection - Part

The general acceptance inspection methods specified in this part of IEC 62058 apply to newly manufactured electricity meters produced and supplied in lots of 50 and above.


Electricity metering equipment (a.c.) - Acceptance inspection -

This part of IEC 62058 specifies particular requirements for acceptance inspection of newly manufactured direct connected or transformer operated electromechanical meters for active energy (classes 0,5, 1 and 2) delivered in lots in quantities above 50. The method of acceptance of smaller lots should be agreed upon by the manufacturer and the customer. The process described herein is primarily intended for acceptance inspection between the manufacturer and the purchaser.


Electricity metering equipment (a.c.) - Acceptance inspection –

This part of IEC 62058 specifies particular requirements for acceptance inspection of newly manufactured direct connected or transformer operated static meters for active energy (classes 0,2 S, 0,5 S, 1 and 2) delivered in lots in quantities above 50. The method of acceptance of smaller lots should be agreed upon by the manufacturer and the customer. The process described herein is primarily intended for acceptance inspection between the manufacturer and the purchaser.


Electricity metering equipment (AC) – General requirements, tests and test conditions – Part 31: Product safety requirements and tests

This part of IEC 62052 specifies product safety requirements for equipment for electrical energy measurement and control. NOTE 1 For other requirements, see the relevant standards. This International Standard applies to newly manufactured metering equipment designed to measure and control electrical energy on 50 Hz or 60 Hz networks with a voltage up to 600 V, where all functional elements, including add-on modules are enclosed in or form a single case. NOTE 2 The voltage mentioned above is the voltage line-to-neutral derived from nominal voltages. See Table 7. This International Standard also applies to metering equipment containing supply and load control switches, but only those which are electromechanical in operation. NOTE 3 For components and sub-assemblies, see Clause 13. When such equipment is designed to be installed in a specified matching socket, then the requirements apply to, and the tests shall be performed on, equipment installed in its specified matching socket. However, requirements for sockets and inserting / removing the meters from the socket are outside the scope of this standard. This International Standard is also applicable to auxiliary input and output circuits. NOTE 4 Examples are impulse inputs and outputs, control inputs and outputs, circuits for meter data exchange. In this standard distinction is made between: • electromechanical meters, static meters and equipment for tariff and load control; • direct connected, current transformer operated, voltage and current transformer operated meters; • protective class I and protective class II equipment; • wall or cabinet mounted, rack mounted and panel mounted equipment; • equipment intended for indoor use and outdoor use. Equipment used in conjunction with equipment for electrical energy measurement and control may need to comply with additional safety requirements. See also Clause 13. NOTE 5 Examples are telecommunication modems and customer information units. This International Standard does not apply to: • equipment where the voltage line-to-neutral derived from nominal voltages exceeds 600 V; • portable meters; NOTE 6 Portable meters are meters that are not permanently connected.


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This document gives requirements specific to tower cranes for limiting and indicating devices. It is applicable to tower cranes as defined in ISO 4306‑3. It is not applicable to end stops such as buffers used to stop trolleying, travelling or luffing movements, nor to erection, dismantling operations or the changing of a crane's configuration. NOTE General requirements for the devices are given in ISO 10245‑1.


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This part of prEN 13209 specifies the safety requirements and test methods for child back carriers with framed support. These framed carriers are intended for children who can sit unaided (approximately 6 months of age) and are designed to be attached to a carer's torso allowing a "hands free operation" when standing and/or walking.


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ISO 13209-2:2012 defines the OTX Core requirements and data model specifications. The requirements are derived from the use cases described in ISO 13209-1. They are listed in the requirements section that composes the first major part of ISO 13209-2:2012. The data model specification aims at an exhaustive definition of all OTX Core features implemented to satisfy the Core requirements. Since OTX is designed for describing test sequences, which themselves represent a kind of program, the Core data model follows the basic concepts common to most programming languages. ISO 13209-2:2012 establishes rules for syntactical entities like parameterised procedures, constant and variable declarations, data types, basic arithmetic, logic and string operations, flow control statements like loop, branch or return, simple statements like assignment or procedure call as well as exception handling mechanisms. Each of these syntactical entities is accompanied by semantic rules which determine how OTX


Child Use and Care Articles - Soother Holder – Safety Requirements

This European Standard specifies safety requirements relating to the materials, construction, performance, packaging and labelling of soother holders (see B.1). It includes test methods for the mechanical and chemical requirements specified. All products that are intended to connect a soother for babies and young children with any other product are included in the scope of this European Standard. This European Standard is intended to provide safety requirements for soother holders which are generally comprised of a strap with the holder at one end which retains the soother whilst the other end has a clasp that attaches to the child’s garment. Where a soother holder has been classified as a toy or considered to have significant play value then the soother holder will have to meet the essential safety requirements for toys as stated in the Toy Directive (88/378/EEC) in addition to those in this European Standard. The addition of decorations or providing animal shaped fasteners should not automatically make the soother holder a toy; however the addition of a toy component to the soother holder will require that both the soother holder and the toy meet the essential safety requirements as stated in the Toy Directive. Where there is doubt concerning classification of a soother holder as a toy then advice should be sought from an EU Toy Notified Body or the Member State’s Competent Authority for toys (see B.2).


Protective clothing -- Determination of behavior of materials on

evaluate the behaviour of materials used for protective clothing when such materials are struck by small liquid metal splashes, especially when molten steel particles are projected against the material. It applies to any pliable material, or assembly of materials, designed to protect workers against small splashes of molten metal. The results obtained by this method enable the behaviour of different materials which have undergone this test under standardized conditions to be compared. They do not permit conclusions with respect to contacts with large splashes of molten cast iron or other molten metal to be drawn, neither will they allow the behaviour of complete garments under industrial conditions to be predicted.


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ISO 9151:2016 specifies a method for determining the heat transmission through materials or material assemblies used in protective clothing. Materials may then be ranked by comparing heat transfer indices, which provide an indication of the relative heat transmission under the specified test conditions. The heat transfer index should not be taken as a measure of the protection time given by the tested materials under actual use conditions.


Protective clothing for protection against chemicals —

This International Standard establishes minimum performance classification and labelling requirements for protective clothing designed to provide protection against chemicals. Protective clothing items covered by this international Standard include, but may not be limited to, totally encapsulating suits, liquid-tight or spray-tight suits, coveralls, jackets, trousers, aprons, smocks, hoods, sleeves, and shoe and boot covers. Chemical protective clothing for protection against airborne particles is addressed by ISO 13982-1, which is referenced in this International Standard. This International Standard does not address protection against solid chemicals in forms other than airborne solid particulates (e.g. it does not address the challenge of penetration of chemical dust and powders through materials and clothing by rubbing or flexing or by simple direct contact of dust or powders onto the clothing surface). This International Standard does not address gloves, boots, eye/face protection devices and respiratory protective devices unless they are an integral part of the protective clothing. This International Standard does not address protection against biological or thermal (hot or cold) hazards, ionizing radiation, or radioactive contamination. This International Standard also does not address the specialized clothing used in hazardous chemical emergencies. NOTE Chemical protective clothing used in hazardous chemical emergencies is addressed in other standards, such as EN 943-2, NFPA 1991 and NFPA 1992. This International Standard is intended to provide chemical protective clothing manufacturers with minimum requirements for testing, classifying, and labelling chemical protective clothing. To assist the users of products covered under this International Standard, this document provides descriptions of referenced test methods, guidelines for conducting hazard and risk assessments and suggested performance levels for certain applications. It is not the intent of this International Standard to address all situations.


Protective clothing — Protection against chemicals —

This International Standard describes laboratory test methods to determine the resistance of materials used in protective clothing, including gloves and including footwear, when the footwear is an integral part of the clothing, to permeation by liquid or gaseous chemicals under the conditions of either continuous or intermittent contact. Method A is applicable to testing against liquid chemicals, either volatile or soluble in water, expected tobe in continuous contact with the protective clothing material. Method B is applicable to testing against gaseous chemicals expected to be in continuous contact with the protective clothing material. Method C is applicable to testing against gaseous and liquid chemicals, either volatile or soluble in water, expected to be in intermittent contact with the protective clothing material. These test methods assess the permeation resistance of the protective clothing material under laboratory conditions in terms of breakthrough time, permeation rate and cumulative permeation. These test methods also enable qualitative observations to be made of the effects of the test chemical onthe material under test. These test methods are only suitable for measuring permeation by liquids and gases. Permeation by solid challenge chemicals is beyond the scope of this International Standard. NOTE It can be difficult or impossible to normalize the results of permeation tests carried out against solid challenge chemicals. The normalized rate of permeation is dependent on the area of fabric exposed to the challenge chemical. In the case of solids this will, in turn, depend also on factors such as particle size, size distribution, particle shape and packing considerations. These test methods address only the performance of materials or certain materials’ constructions (e.g. seams). These test methods do not address the design, overall construction and components, or interfaces of garments, or interfaces between garments and gloves or garments and footwear, or other factors which may affect the overall chemical protection offered by protective clothing, gloves or footwear or combinations of chemical protective clothing, gloves and footwear. It is emphasized that these tests do not necessarily simulate conditions to which materials are likely to be exposed in practice. In most cases the conditions of the permeation test will be far more challenging than expected workplace conditions.


Protective clothing — Protection against liquid chemicals — Test Method

This International Standard specifies a test method for the measurement of indices of penetration, absorption and repellency for protective clothing materials against liquid chemicals, mainly chemicals of low volatility. Two levels of the potential performance of materials are assessed by this method of testing to meet with possible requirements for protection against a) deposition on the surface of a material, at minimal pressure, of spray droplets up to coalescence or occasional small drips; b) contamination by a single low-volume splash or low-pressure jet, allowing sufficient time to divest the clothing or take other action as necessary to eliminate any hazard to the wearer from chemical retained by the protective garment, or, in circumstances where pressure is applied to liquid contaminants on the surface of the clothing material, as a result of natural movements of the wearer (flexing of contaminated areas of clothing at arms, knees, shoulders) and contact with contaminated surfaces (e.g. walking through sprayed foliage).


Protective clothing — Protection against heat and fire — Method

This European Standard specifies two complementary methods (method A and method B) for determining the behaviour of materials for heat protective clothing subjected to heat radiation. These tests are carried out on representative single or multi-layer textiles or other materials intended for clothing for protection against heat. They are also applicable to assemblies, which correspond to the overall build up of a heat protective clothing assembly with or without underclothing, Method A serves for visual assessment of any changes in the material after the action of heat radiation. With method B the protective effect of the materials is determined. The materials may be tested either by both methods or only by one of them. The tests according to these two methods serve to classify materials; however, to be able to make a statement or prediction as to the suitability of a material for protective clothing additional criteria must be taken into account. Since the tests are carried out at room temperature the results do not necessarily correspond to the behaviour of the materials at higher ambient temperatures and therefore are only to a limited extent suitable for predicting the performance of the protective clothing made from the materials under test.


Protective clothing — Vocabulary

ISO/TR 11610:2004 contains a list of terms which are frequently used in the standardization of protective clothing and protective equipment worn on the body, including hand and arm protection and lifejackets, and definitions of these terms. The definitions are intended to support an unambiguous use of the terms listed.


Protective clothing — Clothing to protect against heat and flame

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 International Standard are gaiters, hoods, and overboots. However, concerning hoods, requirements for visors and respiratory equipment are not given. The performance requirements set out in this International Standard 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 International Standard is not applicable to protective clothing that is specified by other International Standards.


Protective clothing for firefighters — Laboratory test methods and

This International Standard specifies test methods and minimum requirements for protective clothing to be worn during firefighting and associated activities where there is a risk of heat and/or flame. This International Standard covers the general clothing design, the minimum performance levels of the materials used, and the methods of test for determining these performance levels. Clauses 4 and 5 define two separate sets of design and performance requirements. This International Standard does not cover special clothing for use in other high risk situations such as specialized firefighting, or clothing for use in long term firefighting operations in high ambient temperature, for example brush, wildland, or forest firefighting. It does not cover protection for the head, hands and feet or protection against other hazards, for example chemical, biological, radiation and electrical hazards. These aspects may be dealt with other standards. Selection of the appropriate system of clothing is dependent on carrying out an effective risk assessment which identifies the hazards to be faced, evaluates the likelihood of those hazards, and provides the means to reduce or eliminate these hazards. Details on one example at a recommended risk assessment approach and some factors for consideration are included in annex F. NOTE Additional personal protective equipment to protect the head, hands, and feet should be worn with clothing specified in this International Standard and in majority of situations breathing apparatus is also required to be worn. Firefighters should be trained in the use and care of protective clothing covered by this International Standard including an understanding of its limitations and of the other items of personal protective equipment that may be required depending on the risks encountered.


Protective clothing — Assessment of resistance of materials to

This International Standard specifies a method for assessing the heat penetration resistance of materials intended for use in clothing to protect against large splashes of molten metal. It provides specific procedures for assessing the effects of splashes of molten aluminium, molten cryolite, molten copper, molten iron and molten mild steel. The principle of the test method is applicable to a wider range of hot molten materials than those for which specific procedures are set out, provided that appropriate measures are applied to protect the test operator. It is important to note that good resistance of a material to a pure molten metal does not guarantee a goodperformance against any slag that can be present in a manufacturing process.


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ISO 4074:2015 specifies requirements and test methods for male condoms made from natural rubber latex.


Copper-bearing contraceptive intrauterine devices — Requirements and tests

ISO 7439:2015 specifies requirements and tests for single-use, copper-bearing contraceptive intrauterine devices (IUDs) and their insertion instruments. It is not applicable to IUDs consisting only of a plastics body or whose primary purpose is to release progestogens.


Mechanical contraceptives -- Reusable natural and silicone rubber

This International Standard specifies the minimum requirements and test methods to be used for reusable diaphragms made from natural rubber and silicone rubber. These diaphragms are intended for contraceptive use. This International Standard is not applicable to other vaginal contraceptive barriers, such as those known as cervical caps, vaginal sponges, and vaginal sheaths.


Shell boilers - Part 1: General

1.1 General This European Standard applies to shell boilers with volumes in excess of 2 litres for the generation of steam and/or hot water at a maximum allowable pressure greater than 0,5 bar and with a temperature in excess of 110 °C. The purpose of this European Standard is to ensure that the hazards associated with the operation of shell boilers are reduced to a minimum and that adequate protection is provided to contain the hazards that still prevail when the shell boiler is put into service. This protection will be achieved by the proper application of the design, manufacturing, testing and inspection methods and techniques incorporated in the various parts of this European Standard. Where appropriate, adequate warning of residual hazards and the potential for misuse are given in the training and operating instructions and local to the equipment concerned (see EN 12953-7 and EN 12953-8). It is the manufacturer's responsibility, in addition to complying with the requirements of this standard, to take into consideration special measures which could be necessary in order to achieve by manufacturing the required level of safety in accordance with the EU Directive 97/23/EC (PED). NOTE 1 Further requirements relating to operating instructions in prEN 12953-13 and to hazard analysis in CEN/TS 764-6 should be taken into consideration. This European Standard specifies requirements for both directly fired and electrically heated boilers including Low Pressure Boilers (LPB, see 3.6) as well as for heat recovery boilers with a gas-side pressure not exceeding 0,5 bar of cylindrical design, constructed from carbon or carbon manganese steels by fusion welding and a design pressure not exceeding 40 bar. The boilers covered by this European Standard are intended for land use for providing steam or hot water (typical examples are shown in Figures 1 to 6). For Low Pressure Boilers (LPB) less stringent requirements concerning design and calculation are acceptable. Details are defined in the respective clauses. NOTE 2 For boilers operating at a pressure on the gas-side greater than 0,5 bar the rules of this standard equally apply. However, it is generally considered that additional design analysis, inspection and testing may be necessary. Where a particular boiler is a combination of shell and water-tube design then the water-tube standard series EN 12952 is used in addition to this European Standard. One such example of this combination is shown in Figure 3. This European Standard applies to the generator, from the feed-water or water inlet connection to the steam or water outlet connection and to all other connections, including the valves and steam and water fittings. If welded ends are used, the requirements specified herein begin or end at the weld where flanges, if used, would have been fitted. 1.2 Exclusions This European standard does not apply to the following types of boilers and equipments: a) water-tube boilers; b) non stationary boilers, e.g. locomotive boilers; c) thermal oil boilers; d) boilers where the main pressure housing is made of cast material. e) pumps, gaskets, etc. f) brickwork setting and insulation, etc. NOTE Stainless steel boilers are covered by EN 14222.


Outdoor furniture - Seating and tables for camping, domestic and contract use - Part 1: General safety requirements

This part of EN 581 specifies the general safety requirements for outdoor seating and tables for camping, domestic and contract for use by adults, without regard to materials, design/construction or manufacturing processes. It does not apply to seating for spectator facilities. It does not include requirements for the durability of upholstery materials, castors, reclining and tilting mechanisms and seat height adjustment mechanisms. Mechanical safety requirements are covered by EN 581-2 for seating and EN 581-3 for tables. Annex A (informative) is a schematic presentation of requirements and conditions concerning shear and squeeze points. Annex B (informative) is a rationale concerning fingers injury


Furniture - Domestic and kitchen storage units and kitchen-worktops - Safety requirements and test methods

This European Standard specifies safety requirements and test methods for all types of kitchen and bathroom storage units and domestic storage furniture and their components. It does not apply to non-domestic storage, office storage, industrial storage, catering equipment, retail storage and industrial storage lockers. It does not apply to units covered by EN 71-1, Safety of toys — Part 1: Mechanical and physical properties and EN 60065, Audio, video and similar electronic apparatus — Safety requirements (IEC 60065). It does not include requirements for the resistance to ageing, degradation, flammability and electrical safety. Safety that is dependent upon the structure of the building is not included, e.g. the strength of wall hanging units includes only the cabinet and its components including wall attachment devices. The wall and the wall attachments are not included. Annex A (normative) contains additional test methods. Annex B (informative) contains a guide to testing of units and components according to this document. Annex C (informative) contains an example of loading of wall hanging units. Annex D (informative) contains a method for calculation of vertical and horizontal acting forces.


Office furniture - Storage furniture - Part 1: Dimensions

This Technical Report gives recommendations for dimensions for office storage furniture. The dimensions given in this Technical Report are based on the dimensions of the various products (i.e. ways of data storing) to be stored in the furniture. Annex A gives some examples of storage furniture. This Technical Report does not apply to high density mechanised filing systems, rotary filing systems, or drawing office storage furniture


Maximum Residue Limits for Pesticides in Food and Agricultural Products

This present standard contains Maximum Residue Limits for Pesticides and Extraneous Maximum Residue Limits in agricultural products and in foods.


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Structural adhesives - Characterisation of anaerobic adhesives for co-axial metallic assembly in building and civil engineering structures

This European Standard specifies requirements and test methods for the characterisation of anaerobic adhesives intended for the general assembly of co-axial metallic elements in building and civil engineering structures including fasteners- threaded and otherwise, pipes and tubes. It is applicable to single adhesives and systems (kits) comprising adhesives, activators and/or primers for both internal and external construction elements. This European Standard only applies to metallic substrates.


Cosmetics — Guidelines on technical definitions and criteria for natural and organic cosmetic ingredients — Part 2: Criteria for ingredients and products

This document describes approaches to calculate natural, natural origin, organic and organic origin indexes that apply to the ingredient categories defined in ISO 16128-1. This document also offers a framework to determine the natural, natural origin, organic and organic origin content of products based on the ingredient characterization. Neither ISO 16128-1 nor this document addresses product communication (e.g. claims and labelling), human safety, environmental safety, socio-economic considerations (e.g. fair trade), characteristics of packaging materials or regulatory requirements applicable for cosmetics. This document builds on and enhances ISO 16128-1. It is intended to be used in conjunction with ISO 16128-1.