Materials for engineering, 3rd Edition - (Malestrom)

Recommendations

Info

1.4 Further reading Structure of engineering materials 35 F.W. Billmeyer Jr., Textbook of Polymer Science, 3 rd Edition, John Wiley, NY, 1984. W.D. Kingery, H.F. Bowen and D.R. Uhlman, Introduction to Ceramics, Wiley, 1976. J.W. Martin, The Local Chemical Analysis of Materials, Elsevier, 2003. N.G. McCrum, C.P. Buckley and C.B. Bucknall, Principles of Polymer Engineering, Oxford University Press, 1988. D.A. Porter and K.E. Easterling. Phase Transformation in Metals and Alloys, Chapman & Hall, 1992.
Page 1 and 2: Materials for engineering Third edi
Page 3 and 4: Related titles: Solving tribology p
Page 5 and 6: Woodhead Publishing Limited and Man
Page 7 and 8: vi Contents 3.4 Degradation of meta
Page 10: Preface to the third edition The cr
Page 14: Preface to the first edition This t
Page 17 and 18: xvi Introduction Young’s modulus,
Page 20 and 21: 1 Structure of engineering material
Page 22 and 23: Structure of engineering materials
Page 24 and 25: 1.2 Microstructure Structure of eng
Page 54 and 55: 2 Determination of mechanical prope
Page 56 and 57: Determination of mechanical propert
Page 62 and 63: 2.4 Statistics of brittle fracture
Page 76 and 77: ∆ε e /2 = ∆σ/2E = σ a /E whe
Page 84: Determination of mechanical propert
Page 88 and 89: 3 Metals and alloys 3.1 General str
Page 90 and 91: Metals and alloys 73 depends upon t
Page 92 and 93: Metals and alloys 75 A minimum degr
Page 94 and 95: Metals and alloys 77 Precipitation
Page 96 and 97: Metals and alloys 79 On being held
Page 98 and 99: Metals and alloys 81 Normalized she
Page 100 and 101: Metals and alloys 83 were construct
Page 102 and 103:
Metals and alloys 85 At% Al 0 10 20
Page 104 and 105:
Metals and alloys 87 Table 3.2 Inte
Page 106 and 107:
Table 3.3 Typical mechanical proper
Page 108 and 109:
Metals and alloys 91 Table 3.4 Typi
Page 110 and 111:
Metals and alloys 93 β Temperature
Page 112 and 113:
Metals and alloys 95 Table 3.5 Typi
Page 114 and 115:
Metals and alloys 97 At% Zn 0 10 20
Page 116 and 117:
Metals and alloys 99 1100 At% Zn 10
Page 118 and 119:
Metals and alloys 101 700 600 500 6
Page 120 and 121:
Metals and alloys 103 Turbine entry
Page 122 and 123:
Metals and alloys 105 Structural st
Page 124 and 125:
Metals and alloys 107 1700 Strength
Page 126 and 127:
Metals and alloys 109 400 Pearlitic
Page 128 and 129:
Metals and alloys 111 25 Austenite
Page 130 and 131:
Metals and alloys 113 The iron-grap
Page 132 and 133:
Metals and alloys 115 3.30 Optical
Page 134 and 135:
Metals and alloys 117 bearing alloy
Page 136 and 137:
Metals and alloys 119 the grain bou
Page 138 and 139:
Metals and alloys 121 structure and
Page 140 and 141:
Metals and alloys 123 The EMF (E) i
Page 142 and 143:
Metals and alloys 125 3.4.2 Corrosi
Page 144 and 145:
Metals and alloys 127 Copper alloys
Page 146 and 147:
Metals and alloys 129 alternative s
Page 148 and 149:
Metals and alloys 131 closely fitti
Page 150 and 151:
4 Glasses and ceramics 4.1 Glasses
Page 152 and 153:
Glasses and ceramics 135 Table 4.1
Page 154 and 155:
Glasses and ceramics 137 Chemical t
Page 156 and 157:
4.3 Ceramic materials Glasses and c
Page 158 and 159:
Glasses and ceramics 141 Thus, the
Page 160 and 161:
Glasses and ceramics 143 ions. One
Page 162 and 163:
Glasses and ceramics 145 Process zo
Page 164 and 165:
Glasses and ceramics 147 temperatur
Page 166 and 167:
Glasses and ceramics 149 50 Reactio
Page 168 and 169:
Glasses and ceramics 151 is three o
Page 170 and 171:
Glasses and ceramics 153 40 Compres
Page 172 and 173:
Glasses and ceramics 155 mild steel
Page 174 and 175:
Glasses and ceramics 157 In recent
Page 176 and 177:
5 Organic polymeric materials 5.1 I
Page 178 and 179:
Organic polymeric materials 161 Pol
Page 180 and 181:
Organic polymeric materials 163 col
Page 182 and 183:
Organic polymeric materials 165 5.5
Page 184 and 185:
Organic polymeric materials 167 see
Page 186 and 187:
Table 5.1 Some physical and mechani
Page 188 and 189:
Organic polymeric materials 171 mat
Page 190 and 191:
Organic polymeric materials 173 the
Page 192 and 193:
Organic polymeric materials 175 Pol
Page 194 and 195:
Organic polymeric materials 177 Fri
Page 196 and 197:
Organic polymeric materials 179 Scr
Page 198 and 199:
Organic polymeric materials 181 los
Page 200 and 201:
Organic polymeric materials 183 suc
Page 202 and 203:
6 Composite materials 6.1 Introduct
Page 204 and 205:
Composite materials 187 (b) Alterna
Page 206 and 207:
Composite materials 189 ‘Smart’
Page 208 and 209:
Composite materials 191 the form of
Page 210 and 211:
Composite materials 193 diagrammati
Page 212 and 213:
Composite materials 195 x dx F F δ
Page 214 and 215:
Composite materials 197 So E E c 1
Page 216 and 217:
Composite materials 199 400 Composi
Page 218 and 219:
Composite materials 201 E m E f σ
Page 220 and 221:
Composite materials 203 fractures b
Page 222 and 223:
Composite materials 205 σ f * σ =
Page 224 and 225:
Composite materials 207 τ r P P -
Page 226 and 227:
Composite materials 209 (a) (b) (c)
Page 228 and 229:
Composite materials 211 200 160 PSF
Page 230 and 231:
Composite materials 213 10 9 Type B
Page 232:
Composite materials 215 B. Harris,
Page 236 and 237:
Problems Chapter 1 1. Distinguish b
Page 238 and 239:
Problems 221 1800 1720 1600 Liquid
Page 240 and 241:
Problems 223 conditions is 200 kJ m
Page 242 and 243:
Problems 225 7. Sketch on the same
Page 244 and 245:
Problems 227 2. Compare and contras
Page 246:
Part IV Appendices
Page 250 and 251:
Appendix II Conversion factors Leng
Page 252:
Appendix III Selected data for some
Page 255 and 256:
238 Appendix IV Aluminium Federatio
Page 258:
Appendix V The Periodic Table of th
Page 261 and 262:
244 Index Brinell test 46 brittle f
Page 263 and 264:
246 Index dispersion-strengthened c
Page 265 and 266:
248 Index maraging steels 108-9 mar
Page 267 and 268:
250 Index power-law creep 81 pozzol
Page 269:
252 Index true stress-strain curve
show all

Materials for engineering, 3rd Edition - (Malestrom)

Create successful ePaper yourself

Delete template?

Save as template?