Characteristics of the high homologous temperature VBO model under extreme conditions such as very fast and very slow tensile tests, long-term-creep and relaxation tests are investigated via numerical experiments and analysis. To this end, material constants of Alloy 800H determined from other tests in Part I were utilized for the prediction. Although no experiments are available for the extreme conditions, the predictions are plausible. For cyclic, strain controlled hold-time tests the predictions compare well with sparse experimental data. The results give confidence that VBO can be used to predict the long-term behavior at high homologous temperature once the constants have been determined from regular, short-term tests.
Issue Section:
Research Papers
1.
Cernocky
E. P.
Krempl
E.
1978
, “Construction of Nonlinear Monotonic Functions with Selectable Intervals of Almost Constant or Linear Behavior
,” ASME Journal of Applied Mechanics
, Vol. 45
, pp. 780
–784
.2.
Fukakura
J.
Matsumoto
F.
Araki
T.
1991
, “Effect of Strain Hold Time on Fatigue Life of Alloy 800H at High Temperatures
,” Trans. Japan. Soc. Mech. Eng.
, Vol. 57
, No. 540
, pp. 1700
–1705
.3.
Majors
P. S.
Krempl
E.
1994
, “The Isotropic Viscoplasticity Theory Based on Overstress Applied to the Modeling of Modified 9wt.%Cr-1wt.%Mo Steel at 538°C
,” Mater. Sci. Eng.
, Vol. A186
, pp. 23
–34
.4.
Majors
P. S.
Krempl
E.
1994
b, “Comments on Induced Anisotropy, the Swift Effect, and Finite Deformation Inelasticity
,” Mechanics Research Communications
, Vol. 21
, pp. 465
–472
.5.
Tachibana
Y.
Krempl
E.
1995
, “Modeling of Creep and Tensile Behavior at High Homologous Temperature Using the Viscoplasticity Theory based on Overstress(VBO): Part I—Creep and Tensile Behavior
,” ASME JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY
, Vol. 117
, pp. 456
–461
.
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