Variation of Radiation Damage in Stainless Steel with Temperature and Dose
doi: 10.11804/NuclPhysRev.22.01.110
- Received Date: 1900-01-01
- Rev Recd Date: 1900-01-01
- Publish Date: 2005-03-20
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Key words:
- modified 316L stainless steel /
- radiation damage /
- positron annihilation lifetime techniques /
- heavy ion irradiation simulation
Abstract: Dependence of radiation damage in the modified 316L stainless steel has been investigated on irradiation temperature from room temperature to 802 ℃ at 21 and 33 dpa and on irradiation dose up to 100 displacemets/atom(dpa) at room temperature by the heavy ion irradiation simulation and positron annihilation lifetime techniques. A radiation swelling peak was observed at ~580 ℃ where the vacancy cluster contains 14 and 19 vacancies and has an average diameter of 0.68 and 0.82 nm, respectively for the 21 and 33 dpa irradiations. The size of the vacancy clusters increases with the increasing of irradiation dose, and the vacancy cluster produced at 100 dpa consists of 8 vacancies and reaches a size of 0.55 nm in diameter. The experimental results show that the radiation damage in this modified 316L stainless steel is more sensitive to irradiation temperature.
Citation: | ZHENG Yong-nan, POLAT Ahmat, XU Yong-jun, ZHOU Dong-mei, WANG Zhi-qiang, RUAN Yu-zhen, DU En-peng, YUAN Da-qing, ZHU Sheng-yun. Variation of Radiation Damage in Stainless Steel with Temperature and Dose[J]. Nuclear Physics Review, 2005, 22(1): 110-114. doi: 10.11804/NuclPhysRev.22.01.110 |