Mechanical Properties of Engineered MaterialsFeaturing in-depth discussions on tensile and compressive properties, shear properties, strength, hardness, environmental effects, and creep crack growth, "Mechanical Properties of Engineered Materials" considers computation of principal stresses and strains, mechanical testing, plasticity in ceramics, metals, intermetallics, and polymers, materials selection for thermal shock resistance, the analysis of failure mechanisms such as fatigue, fracture, and creep, and fatigue life prediction. It is a top-shelf reference for professionals and students in materials, chemical, mechanical, corrosion, industrial, civil, and maintenance engineering; and surface chemistry. |
From inside the book
Page xii
... Materials Functional Forms in the Different Creep Regimes 15.7 Secondary Creep Deformation and Diffusion Mechanisms of Creep Deformation 525 528 531 533 15.9 Creep Life Prediction 542 15.10 Creep Design Approaches 544 xii Contents.
... Materials Functional Forms in the Different Creep Regimes 15.7 Secondary Creep Deformation and Diffusion Mechanisms of Creep Deformation 525 528 531 533 15.9 Creep Life Prediction 542 15.10 Creep Design Approaches 544 xii Contents.
Page 40
... regime , the phase dia- gram in Fig . 2.15 ( a ) is often referred to as a binary isomorphous phase diagram . The compositions at the extreme left and extreme right of the phase diagram [ Fig . 2.15 ( a ) ] correspond to 100 % Ni and ...
... regime , the phase dia- gram in Fig . 2.15 ( a ) is often referred to as a binary isomorphous phase diagram . The compositions at the extreme left and extreme right of the phase diagram [ Fig . 2.15 ( a ) ] correspond to 100 % Ni and ...
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Contents
XC | 287 |
XCII | 289 |
XCIII | 290 |
XCIV | 292 |
XCV | 295 |
XCVI | 300 |
XCVII | 302 |
XCVIII | 304 |
33 | |
XI | 51 |
XII | 57 |
XIV | 59 |
XVII | 64 |
XVIII | 70 |
XIX | 72 |
XX | 75 |
XXI | 78 |
XXII | 81 |
XXIII | 84 |
XXV | 85 |
XXVI | 86 |
XXVII | 89 |
XXVIII | 93 |
XXIX | 103 |
XXX | 107 |
XXXI | 109 |
XXXII | 110 |
XXXIII | 111 |
XXXIV | 112 |
XXXV | 113 |
XXXVI | 121 |
XXXVII | 128 |
XXXVIII | 131 |
XXXIX | 133 |
XL | 136 |
XLI | 138 |
XLII | 139 |
XLIV | 141 |
XLV | 142 |
XLVI | 144 |
XLVII | 148 |
XLVIII | 156 |
XLIX | 157 |
L | 163 |
LI | 165 |
LII | 169 |
LIII | 173 |
LIV | 175 |
LVI | 177 |
LVII | 178 |
LVIII | 181 |
LIX | 183 |
LX | 187 |
LXI | 188 |
LXII | 191 |
LXIII | 193 |
LXIV | 202 |
LXV | 206 |
LXVI | 209 |
LXVII | 216 |
LXVIII | 218 |
LXIX | 221 |
LXXI | 224 |
LXXII | 225 |
LXXIII | 226 |
LXXIV | 229 |
LXXV | 231 |
LXXVI | 234 |
LXXVII | 244 |
LXXVIII | 245 |
LXXIX | 246 |
LXXXI | 248 |
LXXXII | 249 |
LXXXIII | 257 |
LXXXIV | 262 |
LXXXV | 265 |
LXXXVI | 267 |
LXXXVII | 271 |
LXXXVIII | 275 |
LXXXIX | 282 |
XCIX | 308 |
C | 313 |
CII | 315 |
CIII | 317 |
CV | 318 |
CVI | 320 |
CVII | 324 |
CVIII | 342 |
CIX | 351 |
CX | 355 |
CXI | 359 |
CXII | 361 |
CXIV | 366 |
CXV | 367 |
CXVI | 369 |
CXVII | 371 |
CXVIII | 385 |
CXIX | 387 |
CXX | 389 |
CXXI | 393 |
CXXII | 396 |
CXXIII | 397 |
CXXIV | 410 |
CXXV | 411 |
CXXVI | 414 |
CXXVII | 416 |
CXXVIII | 418 |
CXXIX | 419 |
CXXX | 426 |
CXXXI | 436 |
CXXXII | 440 |
CXXXIII | 442 |
CXXXIV | 443 |
CXXXV | 445 |
CXXXVII | 446 |
CXXXVIII | 449 |
CXXXIX | 451 |
CXL | 452 |
CXLI | 456 |
CXLII | 460 |
CXLIII | 462 |
CXLIV | 467 |
CXLV | 473 |
CXLVI | 474 |
CXLVII | 477 |
CXLVIII | 480 |
CXLIX | 486 |
CL | 493 |
CLI | 496 |
CLII | 499 |
CLIII | 504 |
CLIV | 505 |
CLV | 511 |
CLVI | 513 |
CLVII | 520 |
CLVIII | 523 |
CLIX | 525 |
CLX | 528 |
CLXI | 531 |
CLXII | 533 |
CLXIII | 542 |
CLXIV | 544 |
CLXV | 546 |
CLXVI | 547 |
CLXVII | 548 |
CLXVIII | 556 |
CLXIX | 562 |
CLXX | 567 |
CLXXI | 568 |
CLXXII | 573 |
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Common terms and phrases
Acta Metall alloys atoms axial bonds brittle Burgers vector ceramics closure components composite materials constant corresponds crack tip creep deformation crystal curve debonding defects density dependence diffusion dislocation motion displacement ductile edge dislocation effects engineering equations Evans expressions failure fatigue crack growth fiber FIGURE fracture mechanics fracture toughness Furthermore given grain boundary hardening Hence important to note increasing initial interactions interfaces intermetallics lattice linear elastic martensite matrix composites Mech Metall Mater microcracks microstructure modulus nucleation obtained occur parameter particles Pergamon Press permission from Pergamon phase plane strain plastic deformation polymers precipitates processes properties ratio regime reinforcement Reprinted with permission result Schematic illustration schematically in Fig screw dislocation shear stress shown in Fig slip plane Soboyejo solid solution specimen steel strain rate strength strengthening stress intensity factor stress-strain structures temperature tensile tensor thermal shock tion titanium toughening transformation volume fraction Young's modulus zone