Structural Engineer Pocket Book

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Structural Engineer’s Pocket Book Fiona Cobb AMSTERDAM BOSTON HEIDELBERG LONDON NEW YORK OXFORD PARIS SAN DIEGO SAN FRANCISCO SINGAPORE SYDNEY TOKYO
Elsevier Butterworth-Heinemann Linacre House, Jordan Hill, Oxford OX2 8DP 200 Wheeler Rd, Burlington, MA 01803 First published 2004 Copyright ª 2004, Fiona Cobb. All rights reserved The right of Fiona Cobb to be identified as the author of this work has been asserted in accordance with the Copyright, Designs and Patents Act 1988 No part of this publication may be reproduced in any material form (including photocopying or storing in any medium by electronic means and whether or not transiently or incidentally to some other use of this publication) without the written permission of the copyright holder except in accordance with the provisions of the Copyright, Designs and Patents Act 1988 or under the terms of a licence issued by the Copyright Licensing Agency Ltd, 90 Tottenham Court Road, London, England W1T 4LP. Applications for the copyright holder’s written permission to reproduce any part of this publication should be addressed to the publisher Permissions may be sought directly from Elsevier’s Science and Technology Rights Department in Oxford, UK: phone: (þ44) (0) 1865 843830; fax: (þ44) (0) 1865 853333; e-mail: permissions@elsevier.co.uk. You may also complete your request on-line via the Elsevier homepage (http://www.elsevier.com), by selecting ‘Customer Support’ and then ‘Obtaining Permissions’ British Library Cataloguing in Publication Data A catalogue record for this book is available from the British Library Library of Congress Cataloguing in Publication Data A catalogue record for this book is available from the Library of Congress ISBN 0 7506 5638 7 For information on all Elsevier Butterworth-Heinemann publications visit our website at http://books.elsevier.com Typeset by Integra Software Services Pvt. Ltd, Pondicherry, India www.integra-india.com Printed and bound in Great Britain
Page 2 and 3: Structural Engineer’s Pocket Book
Page 6 and 7: Contents Preface Acknowledgements i
Page 8 and 9: Contents vii Timber design to BS 52
Page 10 and 11: Preface As a student or graduate en
Page 12 and 13: Acknowledgements Thanks to the foll
Page 14 and 15: 1 General Information Metric system
Page 16 and 17: General Information 3 Imperial unit
Page 18 and 19: General Information 5 Measurement o
Page 20 and 21: General Information 7 Construction
Page 22 and 23: General Information 9 Line thicknes
Page 24 and 25: General Information 11 Summary of A
Page 26 and 27: 2 Statutory Authorities and Permiss
Page 28 and 29: Statutory Authorities and Permissio
Page 38 and 39: 3 Design Data Design data checklist
Page 40 and 41: Design Data 27 PORTAL FRAMES All fi
Page 42 and 43: Design Data 29 Structural movement
Page 44 and 45: Design Data 31 Typical building tol
Page 46 and 47: Design Data 33 Concrete and steel G
Page 48 and 49: Design Data 35 Cork Granulated 1 Do
Page 50 and 51: Design Data 37 Stainless steel Long
Page 52 and 53: Design Data 39 C Areas where people
Page 54 and 55:
Design Data 41 Typical unit floor a
Page 56 and 57:
Design Data 43 Wind loading BS 6399
Page 58 and 59:
Design Data 45 Minimum barrier heig
Page 60:
Selection of floor construction 800
Page 63 and 64:
Design Data 49 Width of load Total
Page 66:
2 axle tipper 16 260 6.4 2.5 2.6 15
Page 69 and 70:
Design Data 53 Soldiers Slim soldie
Page 71 and 72:
4 Basic and Shortcut Tools for Stru
Page 74:
d bd 2 d 3 b 2 bd 3 36 db 3 48 b 3
Page 78:
d c x bt 1 d bt 1 ‡…d t 1†t
Page 81 and 82:
Basic and Shortcut Tools for Struct
Page 83 and 84:
Page 85 and 86:
Page 87 and 88:
Page 89:
Beam bending and deflection formula
Page 93:
a b W c R A R B R A ˆ Wr M x ˆ Wr
Page 97:
R A ˆ Pb2 …L ‡ 2a† P a b C R
Page 101:
P R A ˆ 3Pb 2a a b R A D R B c R
Page 104 and 105:
Page 106 and 107:
Page 108 and 109:
Page 110:
Multi storey frame ± continued FUL
Page 113 and 114:
Page 115 and 116:
Page 117 and 118:
Page 119 and 120:
Page 121 and 122:
Geotechnics 93 Selection of foundat
Page 123 and 124:
Geotechnics 95 Soil classification
Page 125 and 126:
Geotechnics 97 Approximate correlat
Page 127 and 128:
Geotechnics 99 Typical angle of rep
Page 129 and 130:
Geotechnics 101 Quick estimate desi
Page 131 and 132:
Geotechnics 103 Working pile loads
Page 133 and 134:
Geotechnics 105 Piles in granular s
Page 135 and 136:
Geotechnics 107 Retaining walls Ran
Page 137 and 138:
Geotechnics 109 Trees and shallow f
Page 139 and 140:
Geotechnics 111 Suggested depths fo
Page 141 and 142:
Geotechnics 113 Contaminated land C
Page 143 and 144:
Geotechnics 115 Site investigation
Page 145 and 146:
6 Timber and Plywood Commercial tim
Page 147 and 148:
Timber and Plywood 119 Timber secti
Page 149 and 150:
Timber and Plywood 121 Laminated ve
Page 151 and 152:
Timber and Plywood 123 Insect attac
Page 153 and 154:
Timber and Plywood 125 Preliminary
Page 155 and 156:
Timber and Plywood 127 Timber desig
Page 158 and 159:
Timber and Plywood 129 Horizontally
Page 160 and 161:
Timber and Plywood 131 Slenderness
Page 162 and 163:
Timber and Plywood 133 Effective le
Page 164 and 165:
Timber and Plywood 135 Timber joint
Page 166 and 167:
Timber and Plywood 137 Screwed join
Page 168 and 169:
Timber and Plywood 139 Bolted joint
Page 170 and 171:
7 Masonry Masonry, brought to the U
Page 172 and 173:
Masonry 143 Geometry and arrangemen
Page 174 and 175:
Masonry 145 Selected bond patterns
Page 176 and 177:
Masonry 147 Durability and fire res
Page 178 and 179:
Masonry 149 Vertical load capacity
Page 180 and 181:
Masonry 151 Internal non-loadbearin
Page 182 and 183:
Masonry 153 Vertical load Selected
Page 184 and 185:
Masonry 155 Effective height or len
Page 186 and 187:
Masonry 157 Shear strength A A f v
Page 188 and 189:
Masonry 159 Maximum permitted panel
Page 190 and 191:
Masonry 161 Ultimate moments applie
Page 192 and 193:
Masonry 163 E E 1.00 0.008 0.018 0.
Page 194 and 195:
Masonry 165 Concentrated loads Incr
Page 196 and 197:
Masonry 167 Capacity reduction fact
Page 198 and 199:
Masonry 169 Where there are no open
Page 200 and 201:
Masonry 171 Proprietary pre-stresse
Page 202 and 203:
Masonry 173 L5/100 2 h 95 88 100 L6
Page 204 and 205:
8 Reinforced Concrete The Romans ar
Page 206 and 207:
Reinforced Concrete 177 Concrete mi
Page 208 and 209:
Reinforced Concrete 179 Durability
Page 210 and 211:
Reinforced Concrete 181 Preliminary
Page 212 and 213:
Reinforced Concrete 183 Reinforceme
Page 214 and 215:
Reinforced Concrete 185 Concrete de
Page 216 and 217:
Reinforced Concrete 187 Shear stres
Page 218 and 219:
Reinforced Concrete 189 Design of f
Page 220 and 221:
Reinforced Concrete 191 Stiffness a
Page 223:
Modification factor for compression
Page 226:
Framing moments transferred to colu
Page 229:
Reinforced concrete column design c
Page 233:
1.8 1.6 1.4 e = h 20 hd b A sc 2 d
Page 236 and 237:
Reinforced Concrete 201 1.4 1.2 e h
Page 238 and 239:
Reinforced Concrete 203 Selected de
Page 240 and 241:
Page 242 and 243:
Page 244 and 245:
Structural Steel 209 Summary of hot
Page 246 and 247:
Structural Steel 211 Examples of mi
Page 248 and 249:
Structural Steel 213 b h d s r t Ra
Page 250 and 251:
Page 252 and 253:
Page 254 and 255:
Structural Steel 219 b r 1 98° h d
Page 256 and 257:
Structural Steel 221 b r 1 s d h t
Page 259:
þ 70 70 10 10.3 11 4.8 2.08 57.1
Page 262 and 263:
Structural Steel 225 r 2 v x U t u
Page 265:
76.250.8 3 5.62 7.16 13.9 22.4 56.7
Page 269:
200 100 5 22.6 28.7 17 37 1495 505
Page 272 and 273:
Structural Steel 231 D Y D X t X Y
Page 274 and 275:
Structural Steel 233 D Y X X Y t Ho
Page 276 and 277:
Structural Steel 235 D Y X X Y t DH
Page 278 and 279:
Structural Steel 237 Mild steel fla
Page 280 and 281:
Structural Steel 239 Slenderness Sl
Page 282 and 283:
Structural Steel 241 Effective leng
Page 284 and 285:
Structural Steel 243 Methods of cor
Page 286 and 287:
Structural Steel 245 Summary of met
Page 288 and 289:
Structural Steel 247 Portal frames
Page 290 and 291:
Structural Steel 249 Steel design t
Page 292 and 293:
Structural Steel 251 Section classi
Page 294 and 295:
Structural Steel 253 Moment capacit
Page 296 and 297:
Structural Steel 255 Compression me
Page 298 and 299:
Structural Steel 257 Connections We
Page 300 and 301:
Structural Steel 259 Selected ultim
Page 302 and 303:
Structural Steel 261 Steel design t
Page 304 and 305:
Structural Steel 263 Allowable comp
Page 306 and 307:
Structural Steel 265 Allowable aver
Page 308 and 309:
Structural Steel 267 Allowable stre
Page 310 and 311:
Structural Steel 269 Stainless stee
Page 312 and 313:
Structural Steel 271 Elastic proper
Page 314 and 315:
Structural Steel 273 Preliminary si
Page 316 and 317:
10 Composite Steel and Concrete Com
Page 318 and 319:
Composite Steel and Concrete 277 Pr
Page 320:
Preliminary composite beam sizing t
Page 324 and 325:
Composite Steel and Concrete 281 Co
Page 326 and 327:
Composite Steel and Concrete 283 Sh
Page 328 and 329:
Structural Glass 285 Types of glass
Page 330 and 331:
Structural Glass 287 Typical glass
Page 332 and 333:
Structural Glass 289 Typical glass
Page 334 and 335:
Structural Glass 291 Structural gla
Page 336 and 337:
Structural Glass 293 Connections Co
Page 338 and 339:
12 Building Elements, Materials, Fi
Page 340:
Basement waterproofing to BS 8102 G
Page 343 and 344:
Building Elements, Materials, Fixin
Page 345 and 346:
Page 347 and 348:
Page 349 and 350:
Page 351 and 352:
Page 353 and 354:
Page 355:
Summary of main structural aluminiu
Page 358 and 359:
Type of construction g m Members Jo
Page 360 and 361:
Useful Mathematics 315 Relationship
Page 362 and 363:
Useful Mathematics 317 Algebraic re
Page 364 and 365:
Useful Mathematics 319 Rules for di
Page 366 and 367:
Useful Addresses 321 British Adhesi
Page 368 and 369:
Useful Addresses 323 Construction F
Page 370 and 371:
Useful Addresses 325 Institution of
Page 372 and 373:
Useful Addresses 327 Stone Federati
Page 374 and 375:
Useful Addresses 329 European Glass
Page 376 and 377:
Further Reading Suggested further r
Page 378 and 379:
Further Reading 333 Environment Age
Page 380 and 381:
Further Reading 335 11 Glass Glass
Page 382 and 383:
Sources 337 BS 8118: Part 1:1991. S
Page 384 and 385:
Index Acceleration due to gravity,
Page 386 and 387:
Index 341 CDM (Construction Design
Page 388 and 389:
Index 343 Dry unit weight, 96 Ducti
Page 390 and 391:
Index 345 steel connections, 258, 2
Page 392 and 393:
Index 347 Mitigation, 19, 20 Modula
Page 394 and 395:
Index 349 foundations, 23 junctions
Page 396 and 397:
Index 351 corrosion resistance, 244
Page 398 and 399:
Index 353 mild steel sections, 212
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