Health and Safety in Welding and Allied Processes FIFTH EDITION Jane Blunt and Nigel C Balchin Published by Woodhead Publishing Limited, Abington Hall, Abington Cambridge CB1 6AH, England www.woodhead-publishing.com Published in North America by CRC Press LLC, 2000 Corporate Blvd, NW Boca Raton FL 33431, USA First published 1956, Institute of Welding Revised and enlarged, July 1963 Second edition, 1965 Third edition, 1983, The Welding Institute Fourth edition, 1991, Abington Publishing Fifth edition, 2002, Woodhead Publishing Limited and CRC Press LLC © 2002, Woodhead Publishing Limited The authors have asserted their moral rights. This book contains information obtained from authentic and highly regarded sources. Reprinted material is quoted with permission, and sources are indicated. Reasonable efforts have been made to publish reliable data and information, but the authors and the publishers cannot assume responsibility for the validity of all materials. Neither the authors nor the publishers, nor anyone else associated with this publication, shall be liable for any loss, damage or liability directly or indirectly caused or alleged to be caused by this book. Neither this book nor any part may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, microfilming and recording, or by any information storage or retrieval system, without permission in writing from the publishers. The consent of Woodhead Publishing and CRC Press does not extend to copying for general distribution, for promotion, for creating new works, or for resale. Specific permission must be obtained in writing from Woodhead Publishing or CRC Press for such copying. Trademark notice: Product or corporate names may be trademarks or registered trademarks, and are used only for identification and explanation, without intent to infringe. British Library Cataloguing in Publication Data A catalogue record for this book is available from the British Library. Library of Congress Cataloging in Publication Data A catalog record for this book is available from the Library of Congress. Woodhead Publishing ISBN 1 85573 538 5 CRC Press ISBN 0-8493-1536-0 CRC Press order number: WP1536 Cover design by The ColourStudio Typeset by SNP Best-Set Typesetter Ltd, Hong Kong Printed by TJ International Ltd, Cornwall, England Introduction This is the fifth edition of this work. It has been extensively revised to take into account changes in technology and legislation. Every effort has been made to include the legislative requirements of both the United Kingdom and the United States of America in order to make this book useful to personnel on both sides of the Atlantic. References for each country are given throughout. Some reorganisation of the contents has taken place, and a worked example has been included in Appendix B to illustrate the method of risk assessment, which is the basis for the assessment and control of risk in the United Kingdom. The work begins with a description of the core safety require- ments. It then describes the special hazards found in the welding environment – noise, radiation, fume, gases, etc, in terms of their effects and the strategies that might be adopted to avoid them. The central part of the book takes each major joining technology in turn, and discusses the key hazards that are most relevant to that tech- nology. Finally there is a chapter on testing and welding in situa- tions of increased hazard. The information in this book is believed to be correct at the time of going to press. However, it must be stressed that the onus is on employers to address the risks that exist in their own workplaces, and to ensure that they are complying with the laws that govern work in their own locality. This book should be of use to welders, their managers, and to all health and safety practitioners who have welding and similar processes taking place in their workplace. vii Contents Introduction vii Part 1 Risks and Principles for their Control 1 1 Setting up the workplace 3 2 First aid and accident reporting 11 3 Fire 16 4 Compressed and liquefied gases 26 5 Fume, dust, vapour and gases 38 6 Control of exposure to fume, dust, vapour and gases 51 7 Radiation 67 8 Noise and vibration 72 9 Mechanical hazards 80 Part 2 Processes 87 10 Gas welding, cutting and preheating 89 11 Arc welding and cutting 106 12 Plasma arc processes 133 13 Electroslag welding 138 14 Resistance welding 141 15 Thermit welding 148 16 Electron beam welding 153 17 Friction welding 160 18 Laser welding and cutting 162 19 Brazing and braze welding 169 20 Soft soldering 181 21 Thermal spraying 190 22 Welding and flame spraying plastics 198 23 Inspection and testing 206 24 Welding in more hazardous environments 214 v vi Contents Part 3 Legislation and Appendices 225 25 Legislation 227 Appendix A Glossary 239 Appendix B Sample risk assessment for arc welding 242 Appendix C Useful addresses 247 References 249 Index 257 Part 1 Risks and Principles for their Control 1 Setting up the Workplace In both the United Kingdom and the United States of America, there is a legislative framework that assigns a very large measure of responsibility to employers for the health and safety of their employees. The detailed approach is slightly different and readers need to familiarise themselves with the requirements. Where they have doubts, they should consult the enforcing authorities for advice: • The Health and Safety Executive (United Kingdom) • Occupational Safety and Health Administration (United States of America). The general requirements in the United Kingdom are laid down in the Health and Safety at Work, etc, Act, 1974,1 which places a duty on all employers to ensure as far as is reasonably practi- cable, the health, safety and welfare of all of their employees while they are at work. Many duties are also extended to those not in their employment but who may be affected by the employer’s under- taking. The Act enabled the making of Regulations, which contain detailed specific requirements, which employers are required to comply with. The basis upon which employers should act is one of risk assessment – where employers must analyse the risks associated with their work activities and implement measures to control those risks.2 Employees are required to cooperate with their employer’s efforts to meet the requirements of the Act and the Regulations. There are two useful websites where further information may be obtained, Her Majesty’s Stationery Office,3 where the full text of all Statutory Instruments published since 1987 is available to view and print, and the Health and Safety Executive,4 (HSE), where there is a great deal of advice and guidance. 3 4 Health and Safety in Welding and Allied Processes The general requirements in the United States of America are laid down in section 5 of the Occupational Safety and Health Act of 1970,5which requires employers to furnish each of their employ- ees with employment and a place of employment which are free from recognised hazards that cause or are likely to cause death or serious physical harm to those employees. The Act requires employ- ers to comply with the occupational safety and health standards that it promulgates. The Occupational Safety and Health Administration (OSHA) maintains a website from which access can be gained to Federal Regulations.6 Employees are required to comply with the rules, regulations and orders that apply to them. The net effect in both countries is that in order to ensure that the workforce remains safe and that the requirements are met, a system is needed to manage safety in the workplace. An efficient system will not only meet the legislative requirements, but is also cost effec- tive in minimising lost time through illness and injury. The employer should set up a policy for the assurance of health and safety and assign responsibilities for undertaking the many tasks that will need to be carried out. The workplaces will need to be con- structed and maintained in good order. The work equipment will need to be fit for its purpose and properly maintained .7 Setting up a safety committee enables worker participation and establishes good communication. Safety rules will be needed and the workforce will need to be trained so that they know what hazards they face, the preventive and protective measures that are needed to avoid the risk of injury or ill health, and how to make the best use of those measures, including personal protective equipment if it is needed.8 An inspection programme will be needed to ensure that the mea- sures are adequate and that tasks are being carried out as required. In many workplaces, there will be a need for some health surveil- lance and monitoring of key indicators. The Workplace First, the prescribed poster should be put up in the workplace. In the UK, this is available from the HSE or good bookshops.9Alternatively, the prescribed leaflet10may be distributed to every employee. In the USA, the prescribed poster11can be downloaded from the government website. The workplace should be in accordance with the provisions of the Workplace Regulations,12 or in the USA, according to the requirements of subparts D and J of 29 CFR 1910.13,14 Setting up the Workplace 5 Indoor workplaces should be kept at a reasonable temperature. A temperature of 16 °C or above is recommended where personnel are undertaking light work, and a minimum of 13 °C where heavy work is undertaken. Measures may need to be taken in hot weather to prevent people from becoming overheated. Adequate sanitary facilities should be provided, with facilities for washing and drying the hands. The facilities should be kept clean. An area should be set aside, separate from the work area, where food and drink can be consumed without contamination by substances hazardous to health. Walkways should be marked and kept clear. The walkways should have surfaces that are free from holes, slippery substances and water, to avoid slips, trips and falls. There should be railings or other guards to prevent people from falling down stairs, shafts, etc. Lighting When work must be carried out in areas where insufficient daylight is available it will be necessary to provide artificial lighting, which will almost invariably be electric. Two cases must be covered: normal operation and emergency lighting. General advice is given in an HSE publication.15 Normal lighting The information in Table 1.1 below has been selected from Table 1 of the now obsolescent British Standard16 as that most likely to be applicable to welding activities. The general run of welding work on mild steel plate, often with a black surface, will be of very low contrast. Although arc welding is an almost unique operation, in that the arc emits far more light than Table 1.1. Illuminances and corresponding activities Standard service Visual task Details to be seen illuminance (lux) Size Contrast 500 Moderately difficult Moderate Low 750 Difficult Small Low 1000 Very difficult Very small Very low 1500 Extremely difficult Extremely small Very low 6 Health and Safety in Welding and Allied Processes any practicable artificial illumination, good general illumination will permit the use of a lighter shade of viewing filters because the eyes adapt to the general level of illumination by narrowing of the pupils and the arc light has to be reduced less to match. This gives welders a better view of the weld with less eye strain and renders them less susceptible to dazzle by an accidental view of an arc. Good lighting is also important to facilitate preparatory work, such as edge preparation and assembly of components, and visual checks after welding by the welder himself, etc. Where there is rotating machinery (such as turntables for spraying, or lathes) the designer of the lighting system should avoid stroboscopic effects. The environment in a normal welding shop will require allowance for reduction of output due to dust accumulation on luminaires (lighting fittings) during the intervals between routine lamp replace- ment and cleaning. It is not necessary to paint a welding shop black to avoid reflection of ultraviolet (UV) light (see Chapter 7). For work on site, some welding generators are available with an outlet to power lights; as this is often of low power or of non- standard voltage or frequency, the exact facilities required should be checked against the specification. For the illumination of fuel gas stores, where a leak could give rise to an explosive atmosphere, flameproof equipment will be required (see Chapter 4), unless it is possible to site the lighting outside the hazard area. This may offer security advantages. Emergency lighting If a complete electrical power supply failure occurs after dark, emer- gency lighting will be needed to ensure that workers are able to see well enough to carry out such actions as the following: 1 Making safe any radiographic equipment, especially isotope sources, 2 Shutting down all gas flames for welding cutting preheating, etc, 3 Switching off all electric welding equipment, 4 Rendering safe any equipment relying on supplies also cut off by an electric power failure, such as water cooling, compressed air or ventilation systems, 5 Ensuring that all crane motors are switched off and that any suspended loads which present a hazard, will be marked if necessary,
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