Mechanical MetallurgyThis bestselling metallurgy text examines the behaviour of materials under stress and their reaction to a variety of hostile environments. It covers the entire scope of mechanical metallurgy, from an understanding of the continuum description of stress and strain, through crystalline and defect mechanisms of flow and fracture, and on to a consideration of major mechanical property tests and the basic metalworking process. It has been updated throughout, and optimised for metric (SI) units . End-of-chapter study questions are included. |
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Page 156
... specific slip plane , the { 111 } plane of the fault , and it will be constrained to move in this plane . The partial dislocations move as a unit maintaining the equilibrium width of the faulted region . Because of this restriction to a ...
... specific slip plane , the { 111 } plane of the fault , and it will be constrained to move in this plane . The partial dislocations move as a unit maintaining the equilibrium width of the faulted region . Because of this restriction to a ...
Page 304
... specific heat and p is the density . For low - temperature deformation the strain - rate dependence of the flow curve can be neglected and an instability ( load drop ) in the flow curve will occur when1 მთ - до о < at cp ( 8-54 ) ...
... specific heat and p is the density . For low - temperature deformation the strain - rate dependence of the flow curve can be neglected and an instability ( load drop ) in the flow curve will occur when1 მთ - до о < at cp ( 8-54 ) ...
Page 687
... specific cutting energy . The specific cutting energy depends on the material being machined and also on the cutting speed , feed , rake angle , and other machining parameters . However , at high cutting speeds ( greater than about 3 m ...
... specific cutting energy . The specific cutting energy depends on the material being machined and also on the cutting speed , feed , rake angle , and other machining parameters . However , at high cutting speeds ( greater than about 3 m ...
Contents
Introduction | 3 |
Stress and Strain Relationships for Elastic Behavior | 17 |
Metallurgical Fundamentals | 101 |
Copyright | |
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alloy aluminum angle annealed ASME ASTM atoms axis behavior billet brittle fracture Burgers vector cold-worked components compression constant crack creep cycles decrease determined diameter direction dislocation line ductile edge dislocation elastic elongation embrittlement energy engineering equation extrusion factor failure fatigue limit fibers Figure flow curve flow stress force forging friction given grain boundaries hot-working hydrostatic increase indentation lattice length load machining martensite material matrix maximum measured mechanical metallurgical Metals Park modulus necking notch occurs particles percent plane-strain plastic deformation plastic strain pressure produce properties ratio recrystallization reduction region residual stresses rolling screw dislocation shear stress sheet shown in Fig slip plane slip systems Society for Metals specimen steel strain hardening strain rate stress-strain curve structure surface temperature tensile strength tensile stress tensor thickness tool torsion Trans usually velocity workpiece yield strength yield stress York