High-strength Materials: Proceedings of the Second Berkeley International Materials Conference: High-strength Materials--present Status and Anticipated Developments. Held at the University of California, Berkeley, June 15-18, 1964Victor F. Zackay |
Contents
Thermodynamics and HighStrength Materials By A | 105 |
Some Fundamental Considerations in Design of HighStrength | 130 |
The Structure and Properties of Quenched Iron Alloys By | 167 |
Copyright | |
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Common terms and phrases
Acta activation energy alloys ausformed steel austenite basal bcc metals behavior bonding energies brittle Burgers vector carbide carbon content composition compounds crack creep curve decrease diffusion dislocation density ductility effect elastic electronic configuration eutectic experimental factor fibers flow stress fracture glass grain boundaries hexagonal increase interface intermetallic interstitial iron kilobars lattice low temperatures martensite materials matrix maximum mechanical properties melting modulus nickel nucleation observed obtained occurs particles Peierls phase Phys plane plastic deformation polycrystalline POLYCRYSTALS polymers precipitation prismatic slip promotion energies quenched range ratio region room temperature shear stress shock loading shown in Fig single crystals solid solution solubility specimens stacking fault stacking fault energy stacking-fault energy strain rate stress corrosion structure surface Table tempering tensile strength theory tion Trans transformation transition metals twinning values volume fraction yield strength yield stress