高压物理学报2026,Vol.40Issue(5):20-30,11.DOI:10.11858/gywlxb.20251105
Ti1.5ZrNbMo0.5W0.5高熵合金含能结构材料的微观结构与性能
Microstructure and Properties of the Energetic Structural Material of Ti1.5ZrNbMo0.5W0.5 High-Entropy Alloy
摘要
Abstract
With the increasing demand for enhanced mechanical properties and energy release capabilities in energetic structural materials,traditional materials struggle to concurrently achieve both high mechanical properties and energy release properties.In this study,a novel Ti1.5ZrNbMo0.5W0.5 high-entropy alloy was developed by powder metallurgy process,and its microstructure,mechanical properties,damage effectiveness and energy release mechanisms were comprehensively investigated.The results indicate that the sintered Ti1.5ZrNbMo0.5W0.5 alloy,characterized by high density and fine grain size,demonstrates superior quasi-static and dynamic compression properties.During the ballistic gun experiments,the Ti1.5ZrNbMo0.5W0.5 alloy fragment can penetrate the Q235 steel plate with thickness of 6,8,and 10 mm at speeds of 637,861,and 1 126 m/s,respectively.Meanwhile,after penetrating through the target,the fragment was broken into small-sized fragments and caused the severe energy release reaction.This energy release reaction is primarily driven by the substantial oxidation of Zr-rich regions,releasing significant thermal energy and successfully igniting the cotton and gasoline placed behind the steel target.This research provides a thorough characterization of the microstructure and mechanical properties of Ti1.5ZrNbMo0.5W0.5 alloy.Furthermore,it evaluates its overall performance in practical armor-piercing application and reveals its energy release mechanisms.The research results provide a theoretical foundation and experimental data for the further study and application of TiZrNbMoW system high-entropy alloy.关键词
高熵合金/含能结构材料/微观组织/力学性能/毁伤效能Key words
high-entropy alloy/energetic structural materials/microstructure/mechanical properties/damage effectiveness分类
数理科学引用本文复制引用
武晓寒,何金燕,庄治华,张兴高,彭文联,陈浩,徐菡卿..Ti1.5ZrNbMo0.5W0.5高熵合金含能结构材料的微观结构与性能[J].高压物理学报,2026,40(5):20-30,11.基金项目
国家自然科学基金(51404279) (51404279)
