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Temperature Dependence of SteadyState
Effect of Strain and Structural
Correction for the Variation
8 other sections not shown
A. L. Ruoff Anakapalli apparent activation energies applied stress climb of edge compensated activation energy compensated creep rate constant structure creep curve creep deformation creep of iron creep specimen creep strain creep system creep tests Curie point decarburized dependence of creep Dependence of modulus different temperatures diffusion dislocation density dragging of jogs edge dislocations Elastic Modulus energy for creep energy for self-diffusion exlO5 AH experimental Fast response furnace Feltham ferromagnetic Ferrovac-E Figure grain boundary helium high stresses high temperature creep in/in/sec kcal/mole initial stress Karashima low stresses LVDT mechanism minimum creep rate minimum strain rates modulus compensated activation observed obtained Phys plastic deformation plot pure metals rate on stress rH rH rH screw dislocations shear modulus Sherby sinh steady-state creep rate stress dependence stress exponent stress law Table tantalum temperature temperature changes temperature dependence thermally activated thermocouple Trans vacancy concentration versus Weertman