摘要
重点综述了国内外关于氧化物或碳化物作为强化相的钨基面向等离子体材料的力学性能、氢滞留特性以及辐照损伤,发现制备工艺和强化相含量是影响钨基面向等离子体材料力学性能的主要方面,而均匀分散的强化相颗粒所致使的组织致密化程度更高是钨基材料力学性能提高的主要因素。其次,阐述了晶界和晶内的强化相颗粒分散不均表现出的位移损伤、气泡、绒毛、微裂纹等缺陷都将增加材料对氢同位素的捕获几率,以及等离子体辐照造成的脆化硬化将降低材料的抗热冲击性能。最后分析了近些年弥散强化钨基面向等离子体材料存在的关键基础问题,展望了未来弥散强化钨基材料的主要发展趋势,期望为开发优异的抗高热负荷和辐照损伤的钨基材料方面提供重要参考。
Plasma facing materials in extreme environment of fusion reactors suffer high temperature corrosion,irradiation damage,and severe fuel retention.Tungsten is currently the main candidate for plasma materials because of its inherent low thermal expansion coefficient,low tritium storage capacity,high radiation resistance,and good corrosion resistance.However,the interaction between plasma and tungsten under deuterium-tritium reaction exhibits such defects as low temperature brittleness,low recrystallization temperature and high toughness-brittle transition temperature,such as pores,vacancies and fatigue cracks,which are difficult to meet the wall loading requirements of future nuclear fusion reactors.At present,the second phase dispersion strengthening has become one of the common methods to improve the performance of tungsten-based plasma facing materials.However,the existence of high heat load and high flux of particles put forward more stringent requirements for the comprehensive performance of dispersion strengthened tungsten-based materials.In recent years,the research on tungsten-based plasma-facing materials in fusion reactor has been mainly focused on three aspects:first,the effect of adding oxide(Y_(2)O_(3),La_(2)O_(3),Al_(2)O_(3),ZrO_(2))or carbide(TiC,TaC,ZrC)second-phase particles on the microstructure and mechanical properties of tungsten-based materials;second,the hydrogen retention characteristics of dispersion strengthened tungsten based materials;third,the irradiation damage behavior under the action of different particle flows.The research on the mechanical properties of plasma tungsten based materials mainly includes grain size,tensile and compressive strength,recrystallization temperature,toughness brittleness transition temperature and microhardness.The material preparation process and strengthening phase particle content are the two main aspects affecting the mechanical properties of dispersion strengthened tungsten based materials.At present,the preparation methods of particle strengthening ph
作者
刘豪
龙海川
郑鹏飞
邱长军
陈勇
LIU Hao;LONG Hai-chuan;ZHENG Peng-fei;QIU Chang-jun;CHEN Yong(University of South China,Hubei Hengyang 421001,China;Southwestern Institute of Physics,Chengdu 610225,China)
出处
《表面技术》
EI
CAS
CSCD
北大核心
2022年第8期168-178,213,共12页
Surface Technology
基金
国家重点研发计划(2017YFE0301300)。
关键词
面向等离子体材料
弥散强化
钨基材料
力学性能
氢滞留
辐照损伤
plasma facing materials
dispersion strengthening
tungsten-based materials
mechanical properties
hydrogen retention
irradiation damage
