Effect of Temperature and Grain Boundary on Void Evolution in Irradiated Copper:A Phase-Field Study  

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作  者:Qionghuan Zeng Yiming Chen Zhongsheng Yang Yunhao Huang Zhijun Wang Junjie Li Jincheng Wang 

机构地区:[1]tate Key Laboratory of Solidification Processing,Northwestern Polytechnical University,Xi’an,710072,China [2]Science and Technology On Reactor Fuel and Materials Laboratory,Nuclear Power Institute of China,Chengdu,610213,China

出  处:《Acta Metallurgica Sinica(English Letters)》2024年第9期1621-1632,共12页金属学报(英文版)

基  金:supported by the National Natural Science Foundation of China(Grants No.51871183);supported by the Research Fund of the State Key Laboratory of Solidification Processing(NPU),China(Grant No.2020-TS-06).

摘  要:The continued existence of high-energy radiation in nuclear reactors at high temperatures results in the formation of radiation-induced voids,which will further lead to inevitable swellings of polycrystalline structural components and thus premature failures.A deep understanding of the effect of temperature and grain boundary on void evolution in irradiated copper is significant for preventing this kind of failures.Here,the phase-field method was employed to study void evolution in irradiated copper under different temperatures and grain sizes.The results show that,due to the different sensitivities of point defect production rate and vacancy diffusion rate to temperature changes,both the nucleation-growth rate and the coarsening rate during void evolution increase first and then decrease with increasing temperature;moreover,the nucleation mechanism exhibits site-saturated nucleation at low temperatures while continuous nucleation at high temperatures.The presence of grain boundary can accelerate the emergence of void because grain boundaries can absorb more interstitials than vacancies.The finer the grain size,the stronger inhibitory effect of grain boundaries on the growth rate of void,due to the formation of void denuded zone near grain boundaries.At high temperatures,the growth rate of void in fine grains is significantly reduced due to the increase of vacancy diffusion rate and the enhancement of sink effect of grain boundary on vacancy.

关 键 词:Void evolution Phase-field method Temperature Grain boundary 

分 类 号:TG146.11[一般工业技术—材料科学与工程]

 

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