Mechanical Metallurgy 
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Page 19
22 DESCRIPTION OF STRESS AT A POINT As described in Sec. 18, it is often
convenient to resolve the stresses at a point into normal and shear components.
In the general case the shear components are at arbitrary angles to the ...
22 DESCRIPTION OF STRESS AT A POINT As described in Sec. 18, it is often
convenient to resolve the stresses at a point into normal and shear components.
In the general case the shear components are at arbitrary angles to the ...
Page 24
subjected to a planestress situation. Figure 24 shows the variation of normal
stress and shear stress with 9 for the biaxialplanestress situation given at the
top of the figure. Note the following important facts about this figure: 1. The
maximum ...
subjected to a planestress situation. Figure 24 shows the variation of normal
stress and shear stress with 9 for the biaxialplanestress situation given at the
top of the figure. Note the following important facts about this figure: 1. The
maximum ...
Page 260
Plane strain values of critical stress intensity factor Klc are valid material
properties, independent of specimen thickness, to describe the ... Sohncke's law
states that fracture occurs when the resolved normal stress reaches a critical
value.
Plane strain values of critical stress intensity factor Klc are valid material
properties, independent of specimen thickness, to describe the ... Sohncke's law
states that fracture occurs when the resolved normal stress reaches a critical
value.
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One of the best book for Mechanical Metallurgy. All metallurgist should have a copy of this book.
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Contents
Introduction  3 
Elements of the Theory of Plasticity  72 
Plastic Deformation of Single Crystals  105 
Copyright  
20 other sections not shown
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Common terms and phrases
alloys angle annealed atoms axes axis behavior billet brittle fracture Burgers vector coldworked components compression constant crack criterion cross slip cycles decrease determined diameter direction dislocation line ductile edge dislocation elastic elongation energy engineering equations extrusion factor failure fatigue limit fibers flow curve flow stress force forging friction given grain boundaries hotworking hydrostatic increases lattice length load machining martensite material matrix maximum measured mechanical metallurgical Metals Park modulus normal stress notch occurs orientation particles percent plastic deformation plastic strain polymer pressure produced properties ratio reduction region residual stresses rolling screw dislocation shear strain shear stress sheet shown in Fig shows slip plane slip systems Society for Metals solid specimen steel strain hardening strain rate stressstrain curve structure surface tensile strength tensile stress tensor theory thermal thickness tool torsion Trans usually velocity workpiece yield strength yield stress York