Abstract
An infrared (IR) thermography technique, as a nondestructive evaluation technique, was applied to investigate the fatigue damage of reactor pressure vessel (RPV) steels during 20 Hz and 1,000 Hz fatigue testing. Five stages of the temperature profile were observed: an initial increase of the average specimen temperature, a region of temperature decrease, an equilibrium (steady-state) temperature region, an abrupt increase of the temperature, and a drop of temperature following specimen failure. The relationship among the temperature, stress-strain state, and fatigue behavior is discussed. Both thermodynamic and heat-transfer theories are applied to model the observed temperature variation during fatigue. The stress-strain state of the material has been back-calculated from the observed temperature profiles. The predicted and measured inelastic behavior during fatigue were found to be in good agreement. Thermography appears to provide a useful method of investigating the stress-strain behavior during fatigue.
Original language | English |
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Pages | 191-200 |
Number of pages | 10 |
State | Published - 2003 |
Event | Electron Microscopy: Its Role in Materials Science - San Diego, CA, United States Duration: Mar 2 2003 → Mar 6 2003 |
Conference
Conference | Electron Microscopy: Its Role in Materials Science |
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Country/Territory | United States |
City | San Diego, CA |
Period | 03/2/03 → 03/6/03 |