Strength and Fracture of Engineering SolidsOffering a self-contained approach that develops topics from the simple to the complex throughout, this book combines a rigorous exposition of the fundamentals of the strength and toughness of engineering solids with practical applications to engineering problems. It provides extensive data on real materials and features accessible coverage of important new and developing topics not often presented at this level. |
Contents
AND MECHANICAL PROCESSING | 12 |
General Features of the Tension Test 12 Nominal Stress | 45 |
Mechanical Processing 46 Working Loads 49 Anisotropy | 51 |
Copyright | |
37 other sections not shown
Other editions - View all
Common terms and phrases
alloys aluminum alloys American Society annealed applied atoms austenite behavior brittle Burgers vector Calculate cast iron ceramics Chap composite compression cooling rate corrosion crack growth creep crystal curve deformation diameter dislocation motion ductile edge dislocation elastic elastic modulus energy engineering equilibrium eutectic eutectoid example Exercise failure fatigue ferrite fibers Figure filaments fracture surface fracture toughness glass grain boundaries graphite hardening hardness heat increase indentation initial length liquid martensite mass material matrix mechanical properties melting microstructure modulus neck occurs particles pearlite plain-carbon steel plastic polymers produce quenching range region result room temperature s₁ screw dislocation shear stress shown in Fig shows slip plane Society for Metals solid solution specimen stainless steels strain rate stress-corrosion cracking structure temper tensile strength tensile stress tensile test tension test piece thermal true strain water-quenched yield strength yield stress