中国钼业2026,Vol.50Issue(1):1-17,17.DOI:10.13384/j.cnki.cmi.1006-2602.2026.01.001
钼铼合金组织与性能调控研究进展
Research progress on the regulation of microstructure and properties of molybdenum-rhenium alloys
摘要
Abstract
To clarify the role of rhenium in the microstructure and properties of molybdenum-based alloys,this paper systematically compared three doping processes:solid-solid,solid-liquid,and liquid-liquid,and analyzed the effects of different rhenium(Re)con-tents on the mechanical properties,microstructure,and behavior in a nuclear environment of the alloys.According to the research,the strength of the alloy exhibits a significant improvement as the Re content increases.The room-temperature tensile strength of Mo-51Re reaches1 252 MPa,The elongation of Mo-Re alloys with a rhenium content of 10%~41%(mass fraction)reaches35%~45%.The hardness of low-rhenium alloys(2%~15%Re,mass fraction)is about164HV,while that of high-rhenium alloys(30~50%Re,mass fraction)can exceed 300HV.The addition of rhenium promotes a transition in the dominant dislocation type from edge to mixed.The grain size refines with increasing rhenium content,with the average grain size of Mo-42 Re being 20~25 μm.When the rhenium content exceeds 40%(mass fraction),twins increase significantly.Under neutron irradiation at 450~800℃,low-rhenium alloys(2%~15%Re,mass fraction)exhibit superior irradiation adaptability.This paper provides a basis for the composition design and process selection of Mo-Re alloys under extreme service conditions.关键词
铼含量/力学性能/微观组织/核物理性能Key words
Re content/mechanical properties/microstructure/nuclear physical properties分类
矿业与冶金引用本文复制引用
乔旭东,李世磊,梁静,薛建嵘,于利,张伟伟,常恬..钼铼合金组织与性能调控研究进展[J].中国钼业,2026,50(1):1-17,17.基金项目
西北有色金属研究院人才培养项目(YK2527,YK2409) (YK2527,YK2409)
