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Timestamp: 2019-07-17 04:00:51
Document Index: 648823965

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EVS-EN ISO 19085-7:2019
Identne ISO 19085-7:2019; EN ISO 19085-7:2019
Puidutöötlemismasinad. Ohutus. Osa 7: Rihthöövelpingid, paksushöövelpingid, kombineeritud riht-paksushöövelpingid
Asendab EVS-EN 859:2007+A2:2012; EVS-EN 861:2007+A2:2012; EVS-EN 860:2007+A2:2012
EVS-EN ISO 20607:2019
Identne ISO 20607:2019; EN ISO 20607:2019
Masinate ohutus. Käsiraamat. Üldised põhimõtted koostamisel
This document specifies requirements for the machine manufacturer for preparation of the safety-relevant parts of an instruction handbook for machinery. This document: — provides further specifications to the general requirements on information for use given in ISO 12100:2010, 6.4.5; and — deals with the safety-related content, the corresponding structure and presentation of the instruction handbook, taking into account all phases of the life cycle of the machine. NOTE 1 The strategy for risk reduction at the machine is given in ISO 12100:2010, Clause 6, and includes inherently safe design measures, safeguarding and complementary risk reduction measures as well as information for use. NOTE 2 Annex A contains a correspondence table between ISO 12100:2010, 6.4, and this document. NOTE 3 Information for conception and preparation of instructions in general is available in IEC/IEEE 82079-1. This document establishes the principles which are indispensable to provide information on residual risks. This document does not address requirements for declaration of noise and vibration emissions. This document is not applicable to machinery manufactured before the date of its publication.
EVS-EN ISO 22065:2019
Identne ISO 22065:2019; EN ISO 22065:2019
Asendab EVS-EN 1076:2010
EVS-EN ISO 14090:2019
Identne ISO 14090:2019; EN ISO 14090:2019
Adaptation to climate change - Principles, requirements and guidelines (ISO 14090:2019)
EVS-EN ISO 17422:2019
Identne ISO/DIS 1585; EN ISO 17422:2019
Hind 122,79 EUR
Ergonomics of the physical environment -- Subjective judgement scales for assessing physical environments
This document presents principles and examples of practical application for the construction of appropriate subjective scales for use in the assessment and evaluation of the physical environment. It does not standardize particular scales. It considers scales of perception, comfort, preference, acceptability, expression form and tolerance, and environmental components such as thermal, visual, air quality, acoustic and vibration. It does not consider other scales such as: - scales related to the effects of the environment on the ability to read displays or signs, on manual performance or on psychological conditions such as mood, etc.; - scales related to pain or scales related to stimuli that can lead to injury. This document does not present principles of surveys (see Note) or questionnaire design. However, the scales that are developed using this document can be incorporated into surveys or questionnaires. NOTE Environmental surveys are described in ISO 28802. ISO 28802 includes scales that are complementary to, and based upon, the principles of scale construction that are described in this document.
Asendab ISO 10551:1995
Hind 140,58 EUR
Fire extinguishing media -- Foam concentrates -- Part 1: Specification for low-expansion foam concentrates for top application to water-immiscible liquids
This document specifies the essential properties and performance of liquid foam concentrates used to make low-expansion foams for the control, the extinction and the inhibition of reignition of fires of water-immiscible liquids. Minimum performance on certain test fires is specified. These foams are suitable for top application to fires of water-immiscible liquids. The foams that conform with ISO 7203-3 are also suitable for top application to fires of water-miscible liquids. The foam concentrates can be suitable for use in non-aspirating sprayers or for subsurface application to liquid fires, but the requirements specific to those applications are outside the scope of this document.
Asendab ISO 7203-1:2011
Fire extinguishing media -- Foam concentrates -- Part 2: Specification for medium- and high-expansion foam concentrates for top application to water-immiscible liquids
This document specifies the essential properties and performance of liquid foam concentrates used to make medium- or high-expansion foams or both for the control, the extinction and the inhibition of reignition of fires of water-immiscible liquids. Minimum performance on certain test fires is specified. These foams are suitable for top application to fires of water-immiscible liquid. Those foams that comply with ISO 7203-1 are also suitable for top application to fires of water-immiscible liquids.
Asendab ISO 7203-2:2011
This document specifies the essential properties and performance of liquid foam concentrates used to make low-expansion foams for the control, extinction and inhibition of re-ignition of fires of water-miscible liquids. Minimum performance on certain test fires is specified. These foams are suitable for top application to fires of water-miscible liquids. Those foams that also comply with ISO 7203-1 are also suitable for top application to fires of water-immiscible liquids. The foam concentrates can be suitable for use in non-aspirating sprayers or for subsurface application to liquid fires, but requirements specific to those applications are not included in this document.
Asendab ISO 7203-3:2011
This document describes rules for the procedures, applications, and systems of thermoluminescence dosimetry (TLD) for dose measurements according to the probe method. It is particularly applicable to solid "TL detectors", i.e. rods, chips, and microcubes, made from LiF:Mg,Ti or LiF:Mg,Cu,P in crystalline or polycrystalline form. It is not applicable to LiF powders because their use requires special procedures. The probe method encompasses the arrangement, particularly in a water phantom or in a tissue-equivalent phantom, of single TL detectors or of "TL probes", i.e. sets of TL detectors arranged in thin-walled polymethyl methacrylate (PMMA) casings. The purpose of these rules is to guarantee the reliability and the accuracy indispensable in clinical dosimetry when applied on or in the patient or phantom. This document applies to dosimetry in teletherapy with both photon radiation from 20 keV to 50 MeV and electron radiation from 4 MeV to 25 MeV, as well as in brachytherapy with photon-emitting radionuclides. These applications are complementary to the use of ionization chambers.
Asendab ISO 28057:2014
ISO 14520-5:2019
Hind 51,61 EUR
Gaseous fire-extinguishing systems -- Physical properties and system design -- Part 5: FK-5-1-12 extinguishant
Asendab ISO 14520-5:2016
ISO 14520-8:2019
Gaseous fire-extinguishing systems -- Physical properties and system design -- Part 8: HFC 125 extinguishant
This document contains specific requirements for gaseous fire-extinguishing systems, with respect to the HFC 125 extinguishant. It includes details of physical properties, specifications, usage and safety aspects. This document is applicable to systems operating at nominal pressures of 25 bar and 42 bar, superpressurized with nitrogen. This does not preclude the use of other systems.
Asendab ISO 14520-8:2016
ISO 14520-9:2019
Gaseous fire-extinguishing systems -- Physical properties and system design -- Part 9: HFC 227ea extinguishant
This document contains specific requirements for gaseous fire-extinguishing systems, with respect to the HFC 227ea extinguishant. It includes details of physical properties, specifications, usage and safety aspects. This document is applicable to systems operating at nominal pressures of 25 bar, 42 bar and 50 bar with nitrogen propellant. This does not preclude the use of other systems.
Asendab ISO 14520-9:2016
ISO 14520-10:2019
Gaseous fire-extinguishing systems -- Physical properties and system design -- Part 10: HFC 23 extinguishant
This document contains specific requirements for gaseous fire-extinguishing systems, with respect to the HFC 23 extinguishant. It includes details of physical properties, specifications, usage and safety aspects. It is applicable to systems operating at a nominal pressure of 41 bar without nitrogen superpressurization and 70 bar superpressurized with nitrogen.
Asendab ISO 14520-10:2016
Asendab ISO 9241-210:2010
Hind 266,93 EUR
IEC 61482-1-1:2019 specifies test method procedures to determine the arc rating of flame resistant clothing materials and garments or assemblies of garments intended for use in clothing for workers if there is an electric arc hazard. An open arc under controlled laboratory conditions is used to determine the values of ELIM, ATPV or EBT of materials, garments or assemblies of garments. NOTE 1 The user can, if he desires, classify the arc protective performance into arc rating protection levels based on ELIM, ATPV and/or EBT values which correspond best to the different hazard and risks levels that can result from the user’s risk analysis. NOTE 2 This document is not dedicated to classifying the arc protective performance of the material and clothing into arc protection classes. Procedures determining these arc protection classes APC1 and APC2 are specified in IEC 61482 1-2, which uses a constrained arc for testing. NOTE 3 This test method is not intended and not appropriate to evaluate whether materials or garments are flame resistant or not, as this is covered in IEC 61482-2. Other effects than the thermal effects of an electric arc like noise, light emissions, pressure rise, hot oil, electric shock, the consequences of physical and mental shock or toxic influences are not covered by this document. Protective clothing for work intentionally using an electric arc, e.g. arc welding, plasma torch, is not covered by this document.
This second edition cancels and replaces the first edition published in 2009. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: – addition of the Incident energy limit (ELIM) as a further arc rating performance property value; – replacement of char length requirement in the scope by indication that Procedure A is applicable for testing of materials meeting the limited flame spread requirements of IEC 61482-2; – clarification of the definition and the meaning of the Stoll curve; – modification of specification of positioning of monitor sensors with respect to the electric arc as function of intended high incident energy exposure of test specimens; – modification of specifications of monitor sensor construction; – specification of black paint; – elimination of calorimeters from the chest of the mannequin; – specification for possible positioning of mannequin(s) at a height different from the centre of the electric arc and possible turning in order to adequately expose all parts of the garment or clothing which would affect performance; – more explicit description of requirements for data acquisition system; – preconditioning of the samples; – modification of requirements for apparatus and arc exposure verification by bare shots; – more explicit description of test procedures A and B, in particular the subclauses dealing with “sequence of test”, “test parameter” and “test criteria”; – addition of determination of arc rating values of garments and/or garment assemblies.
Asendab IEC 61482-1-1:2009
Hind 355,90 EUR
IEC TR 62757:2015+A1:2019, which is a technical report, deals with fire prevention measures on converters and their valve halls for high voltage direct current (HVDC) systems, static VAR compensators (SVC) and flexible AC transmission systems (FACTS). It is intended to be primarily for the use of the utilities and consultants who are responsible for issuing technical specifications for new converter valves and valve halls. It concerns fire incidents in HVDC projects using line commutated converters (LCC) or voltage sourced converter (VSC) technology and it is from these projects that most examples of fires and fire incidents are taken. This technical report also addresses converter valves and valve halls for SVC and FACTS. This technical report provides general recommendations to be considered while preparing specifications for these systems. Specific requirements for a particular project need to be clearly specified and mutually agreed upon between the supplier and the purchaser. This consolidated version consists of the first edition (2015) and its amendment 1 (2019). Therefore, no need to order amendment in addition to this publication.
Hind 311,42 EUR
IEC 62676-2-31:2019 defines procedures for communication between network video clients and video transmitter devices. This new set of specifications makes it possible to build network video systems with devices and receivers from different manufacturers using common and well-defined interfaces. These interfaces cover functions such as media and imaging configuration, real-time streaming of audio and video, pan, tilt and zoom (PTZ) control as well as analytics. The management and control interfaces defined in this document are described as web services. Annex F contains XML schema and Web Service Description Language (WSDL) definitions for the introduced network services. This first edition, together with IEC 60839-11-31 and IEC 62676-2-32, cancels and replaces IEC 62676-2-3:2013. This edition includes the following significant technical changes with respect to IEC 62676-2-3:2013: a) addition of the Media2 service; b) additional methods for the imaging service; c) method duplicates from the device IO service have been removed; d) both the display and analytics device service are no more included.
Asendab IEC 62676-2-3:2013
Hind 17,80 EUR
Amendment for IEC/TR 62757:2015
Hind 284,72 EUR
IEC 62676-2-32:2019 specifies the web service interface for the configuration of the recording of video, audio and metadata. Additionally, associated events are defined. Web service usage is outside the scope of this document. Please refer to the IEC 60839‑11-31 for more information. This first edition, together with IEC 60839-11-31 and IEC 62676-2-31, cancels and replaces IEC 62676-2-3:2013. This edition includes the following significant technical changes with respect to IEC 62676-2-3:2013: a) an export file format has been added.
Identne IEC/TR 61511-0:2018; CLC IEC/TR 61511-0:2019
EVS-EN 1076:2010
Identne EN 1076:2009
Workplace exposure - Procedures for measuring gases and vapours using pumped samplers - Requirements and test methods
This European Standard specifies performance requirements and test methods under prescribed laboratory conditions for the evaluation of pumped samplers used in conjunction with an air sampling pump and of procedures using these samplers for the determination of gases and vapours in workplace atmospheres. This European Standard is applicable to pumped samplers and measuring procedures using these samplers in which sampling and analysis are carried out in separate stages. This European Standard is not applicable to: - pumped samplers which are used for the direct determination of concentrations, for example, length-of-stain detector tubes; - samplers which rely on sorption into a liquid, and subsequent analysis of the solution (bubblers).
Asendatud EVS-EN ISO 22065:2019
prEN ISO 5667-1
Identne ISO/DIS 5667-1; prEN ISO 5667-1
Water quality - Sampling - Part 1: Guidance on the design of sampling programmes and sampling techniques (ISO/DIS 5667-1:2019)
This part of ISO 5667 sets out the general principles for, and provides guidance on, the design of sampling programmes and sampling techniques for all aspects of sampling of water (including waste waters, sludges, effluents, suspended solids and sediments). It does not include detailed instructions for specific sampling situations, which are covered in the various other parts of ISO 5667 and in ISO 19458.
Identne ISO/FDIS 389-7; prEN ISO 389-7
Acoustics - Reference zero for the calibration of audiometric equipment - Part 7: Reference threshold of hearing under free-field and diffuse-field listening conditions (ISO/DIS 389-7:2019)
This document specifies a reference threshold of hearing for the calibration of audiometric equipment used under the following conditions. a) The sound field in the absence of the listener consists of either a free progressive plane wave (free field) or a diffuse sound field, as specified in ISO 8253-2. In the case of a free field, the source of sound is directly in front of the listener (frontal incidence). b) The sound signals are pure (sinusoidal) tones in the case of free field conditions and one third octave bands of (white or pink) noise in the case of diffuse field conditions. c) The sound pressure level is measured in the absence of the listener at the position where the centre of the listener’s head would be. d) Listening is binaural. NOTE 1 Correction values for the threshold of hearing under free-field listening conditions and selected angles of sound incidence (45° and 90°) deviating from frontal incidence are given in ISO 8253-2 for information. NOTE 2 Other conditions are given in Reference [1]. The data are given in numerical form for the preferred frequencies in the one-third-octave series from 20 Hz to 16 000 Hz inclusive in accordance with ISO 266 and, in addition, for some intermediate audiometric frequencies up to 18 000 Hz. The threshold data differ from the audiometric zero specified in ISO 389-1, ISO 389-2, ISO 389-5 and ISO 389-8, since the latter refer to monaural listening through earphones with sound pressure levels referred to specified couplers and ear simulators. Direct comparison between the data in the parts of ISO 389 mentioned above and in this document is therefore not appropriate.
prEN 15004-2
Identne ISO 14520-5:2016; prEN 15004-2
Fixed firefighting systems - Gas extinguishing systems - Part 2: Physical properties and system design of gas extinguishing systems for FK-5-1-12 extinguishant (ISO 14520-5:2016, modified)
This document specifies requirements for gaseous fire-extinguishing systems, with respect to FK 5 1 12 extinguishant. It includes details of physical properties, specification, usage and safety aspects. This document covers only systems operating at nominal pressures of 25 bar, 34,5 bar, 42 bar and 50 bar with nitrogen propellant. This does not preclude the use of other systems.
prEN 15004-5
Identne ISO 14520-9:2016; prEN 15004-5
Fixed firefighting systems - Gas extinguishing systems - Part 5: Physical properties and system design of gas extinguishing systems for HFC 227ea extinguishant (ISO 15420-9:2016, modified)
prEN 15004-4
Identne ISO 14520-8:2016; prEN 15004-4
Fixed firefighting systems - Gas extinguishing systems - Part 4: Physical properties and system design of gas extinguishing systems for HFC 125 extinguishant (ISO 14520-8:2016, modified)
This document specifies requirements for gaseous fire-extinguishing systems, with respect to the HFC 125 extinguishant. It includes details of physical properties, specification, usage and safety aspects. This document is apploicable for systems operating at nominal pressures of 25 bar and 42 bar, superpressurized with nitrogen. This does not preclude the use of other systems.
prEN 15004-6
Identne ISO 14520-10:2016; prEN 15004-6
Fixed firefighting systems - Gas extinguishing systems - Part 6: Physical properties and system design of gas extinguishing systems for HFC 23 extinguishant (ISO 14520-10:2016, modified)
prEN IEC 61472-2:2019
Identne IEC 61472-2:201X; prEN IEC 61472-2:2019
This part of IEC 61472-2 specifies a method for determining the minimum approach distance for live working, for AC systems 1 kV up to and including 72,5 kV, required to protect workers from system overvoltages. This standard addresses system overvoltages, and the working air distances between equipment and/or workers at different potentials. The required withstand voltage and minimum approach distances determined by the method described in this standard are recommended for use only if the following working conditions prevail: – workers are trained for, and skilled in, working live lines or close to live conductors or equipment; – the operating conditions are adjusted so that the statistical overvoltage does not exceed the value selected for the determination of the required withstand voltage; – transient overvoltages are the determining overvoltages; – tool insulation has no continuous film of moisture present on the surface; – no lightning is observed within 10 km of the work site; – allowance is made for the effect of conducting components of tools; NOTE 1 In some countries, special procedures have been developed to permit live working with surface moisture on tools at distribution voltages (below 50 kV).
Identne prEN 50131-2-4:2019
prEN IEC 63247-1:2019
Identne IEC 63247-1:201X; prEN IEC 63247-1:2019
This International Standard specifies the requirements and testing for PPE footwear used as electrical insulating footwear and overboots that provide protection of the worker against electric shock and used for working live or close to live parts on installations up to 36 000 V AC or 25 000 V DC. The products designed and manufactured according to this standard contribute to the safety of the users provided they are used by skilled persons, in accordance with safe methods of work and the instructions for use. Antistatic, electrical shock resistant and conductive footwear are not covered by this standard. NOTE Part 2 Electrical Shock Resistant Footwear and Part 3 Conductive Footwear for Live Working are in development.