BS EN IEC 60695-7-2:2021 – TC:2022 Edition
$246.62
Tracked Changes. Fire hazard testing – Toxicity of fire effluent. Summary and relevance of test methods
| Published By | Publication Date | Number of Pages |
| BSI | 2022 | 118 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 70 | undefined |
| 73 | Annex ZA (normative)Normative references to international publicationswith their corresponding European publications |
| 74 | English CONTENTS |
| 77 | FOREWORD |
| 79 | INTRODUCTION |
| 80 | 1 Scope 2 Normative references |
| 81 | 3 Terms and definitions |
| 85 | 4 Role of small-scale toxicity tests 4.1 General |
| 86 | 4.3 Toxic hazard, exposure dose and fractional effective dose (FED) 4.4 Fractional effective concentration (FEC) 4.5 Generic toxic potencies |
| 87 | 5 General aspects of small-scale toxicity tests 5.1 General 5.2 Physical fire models |
| 88 | 5.3 Fire stages in a compartment fire 5.4 Methods of analysis 5.4.1 General Figure 1 – Different phases in the development of a fire within a compartment |
| 90 | Tables Table 1 – Characteristics of fire types (ISO 19706) |
| 91 | 5.4.2 Chemical analysis based methods 5.4.3 Methods based on animal exposure 6 Summary of published chemical analysis based test methods 6.1 General 6.2 UK Ministry of Defence – DEF STAN 02-713 6.2.1 Summary |
| 92 | 6.2.2 Purpose and principle 6.2.3 Test specimen 6.2.4 Test method |
| 93 | 6.2.5 Repeatability and reproducibility 6.2.6 Relevance of test data and special observations Table 2 – Cf values for various gases |
| 94 | 6.3 Airbus industry 6.3.1 Summary 6.3.2 Purpose and principle 6.3.3 Test specimen 6.3.4 Test method 6.3.5 Repeatability and reproducibility Table 3 – Volume fraction limits for gas components |
| 95 | 6.3.6 Relevance of test data and special observations 6.4 Comitato Elettrotecnico Italiano (CEI) 6.4.1 Summary 6.4.2 Purpose and principle 6.4.3 Test specimen 6.4.4 Test method 6.4.5 Repeatability and reproducibility 6.4.6 Relevance of test data and special observations |
| 96 | 6.5 Norme Française (NF) 6.5.1 Summary 6.5.2 Purpose and principle 6.5.3 Test specimen 6.5.4 Test method 6.5.5 Repeatability and reproducibility 6.5.6 Relevance of test data and special observations |
| 97 | 6.6 ISO test methods 6.6.1 ISO/TS 19021 |
| 98 | 6.6.2 ISO/TS 19700 Table 4 – Decomposition conditions |
| 99 | 6.7 International Maritime Organization (IMO) 6.7.1 Summary 6.7.2 Purpose and principle 6.7.3 Test specimen 6.7.4 Test method |
| 100 | 6.7.5 Repeatability and reproducibility 6.7.6 Relevance of test data and special observations 6.8 Toxicity test for rolling stock cables 6.8.1 Summary Table 5 – Volume fraction limits for gas component |
| 101 | 6.8.2 Purpose and principle 6.8.3 Test specimen 6.8.4 Test method 6.8.5 Repeatability and reproducibility Table 6 – CCz values taken from EN 50305 |
| 102 | 6.8.6 Relevance of test data and special observations 6.9 Toxicity test of materials and components (other than cables) used in railway applications 6.9.1 Summary 6.9.2 Purpose and principle 6.9.3 Test specimen 6.9.4 Test method |
| 103 | 6.9.5 Repeatability and reproducibility 6.9.6 Relevance of test data and special observations 7 Summary of published test methods relating to animal exposure 7.1 General 7.2 Deutsches Institut für Normung, DIN 53436 7.2.1 Summary 7.2.2 Purpose and principle 7.2.3 Test specimen Table 7 – Reference concentrations of the gas components |
| 104 | 7.2.4 Test method 7.2.5 Repeatability and reproducibility 7.2.6 Relevance of test data and special observations |
| 105 | 7.3 National Bureau of Standards (NBS) 7.3.1 Summary 7.3.2 Purpose and principle 7.3.3 Test specimen 7.3.4 Test method 7.3.5 Repeatability and reproducibility |
| 106 | 7.3.6 Relevance of test data and special observations 7.3.7 Reference documents 7.4 National Institute of Standards and Technology, NIST Radiant furnace 7.4.1 Summary 7.4.2 Purpose and principle |
| 107 | 7.4.3 Test specimen 7.4.4 Test method 7.4.5 Repeatability and reproducibility 7.4.6 Relevance of test data and special observations |
| 108 | 7.4.7 Reference documents 7.5 University of Pittsburgh, Upitt Box furnace 7.5.1 Summary 7.5.2 Purpose and principle 7.5.3 Test specimen 7.5.4 Test method |
| 109 | 7.5.5 Repeatability and reproducibility 7.5.6 Relevance of test data and special observations 7.5.7 Reference documents 7.6 Japanese fire toxicity test for building components 7.6.1 Summary 7.6.2 Purpose and principle 7.6.3 Test specimen |
| 110 | 7.6.4 Test method 7.6.5 Repeatability and reproducibility 7.6.6 Relevance of test data and special observations 8 Overview of methods and relevance of data |
| 111 | Table 8 – Overview of toxicity test methods |
| 112 | Table 9 – Overview of toxicity test methods (continued, with comments) |
| 113 | Bibliography |
Related products
-
BS EN 62020:1999:2006 Edition
Electrical accessories. Residual current monitors for household and similar uses (RCMs) Published By Publication Date…
-
BS EN 60695-1-30:2017 – TC:2020 Edition
Tracked Changes. Fire hazard testing – Guidance for assessing the fire hazard of electrotechnical products…
-
BS EN IEC 60695-2-10:2021 – TC:2022 Edition
Tracked Changes. Fire hazard testing – Glowing/hot-wire based test methods. Glow-wire apparatus and common test…
-
BS EN IEC 60695-5-1:2021 – TC:2022 Edition
Tracked Changes. Fire hazard testing – Corrosion damage effects of fire effluent. General guidance Published…
-
BS EN IEC 60695-2-11:2021 – TC:2022 Edition
Tracked Changes. Fire hazard testing – Glowing/hot-wire based test methods. Glow-wire flammability test method for…
-
BS EN IEC 60695-9-2:2021 – TC
Tracked Changes. Fire hazard testing – Surface spread of flame. Summary and relevance of test…
