D. L. Klarstrom scite author profile

High-speed, high-resolution infrared thermography, as a noncontact, full-field, and nondestructive technique, was used to study the temperature variations of a cobalt-based ULTIMET alloy subjected to high-cycle fatigue. During each fatigue cycle, the temperature oscillations, which were due to the thermal-elastic-plastic effects, were observed and related to stress-strain analyses. A constitutive model was developed for predicting the thermal and mechanical responses of the ULTIMET alloy subjected to cyclic deformation. The model was constructed in light of internal-state variables, which were developed to characterize the inelastic strain of the material during cyclic loading. The predicted stress-strain and temperature responses were found to be in good agreement with the experimental results. In addition, the change of temperature during fatigue was employed to reveal the accumulation of fatigue damage, and the measured temperature was utilized as an index for fatigue-life prediction.

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A study of the effect of nanostructured surface layers on the fatigue behaviors of a C-2000 superalloy

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Enhanced fatigue resistance of a nickel-based hastelloy induced by a surface nanocrystallization and hardening process

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Philosophical Magazine Letters

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High-frequency metal fatigue: the high-cycle fatigue behavior of ULTIMET® alloy

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Plastic behavior of a nickel-based alloy under monotonic-tension and low-cycle-fatigue loading

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Wang

et al. 2008

International Journal of Plasticity

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D. L. Klarstrom

Characterization of the temperature evolution during high-cycle fatigue of the ULTIMET superalloy: Experiment and theoretical modeling

A study of the effect of nanostructured surface layers on the fatigue behaviors of a C-2000 superalloy

Enhanced fatigue resistance of a nickel-based hastelloy induced by a surface nanocrystallization and hardening process

High-frequency metal fatigue: the high-cycle fatigue behavior of ULTIMET® alloy

Plastic behavior of a nickel-based alloy under monotonic-tension and low-cycle-fatigue loading

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