<正>Radiation-induced void swelling of austenitic stainless steels cladding is one of the key factors restricting the burn up of fuel and affecting the safety and economy of reactors.It is helpful to predict the trend of void swelling more accurately by studying the radiation-induced microstructure evolution in materials and its effect on void swelling.In this study,cluster dynamics methods which includethe dislocation evolution model is used to study the evolution of dislocation structure and its effect on void swelling under irradiation conditions.
类型: 期刊论文
作者: WU Shi,HE Xinfu
来源: Annual Report of China Institute of Atomic Energy 2019年00期
年度: 2019
分类: 工程科技Ⅱ辑
专业: 核科学技术
单位: Division of Reactor Engineering Technology Research
分类号: TL341
页码: 125-126
总页数: 2
文件大小: 537K
本文来源: https://www.lunwen66.cn/article/8c7fb3a41d4f87cb0b1c6752.html