哈工大姜巨福教授:新办法实现稳定触变变形 助力半固态HEA性能加强
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;"><span style="color: black;"><strong style="color: blue;"><span style="color: black;"><span style="color: black;">导读</span></span></strong></span></p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;"><span style="color: black;"><span style="color: black;"><span style="color: black;">提出了粉末冶金-快速加热等温保温(PMRHI)<span style="color: black;">办法</span>,以实现半固态Al0.8Co1.5Cr0.5CuFeNi HEA的快速球化和<span style="color: black;">控制</span>固相晶粒粗化。<span style="color: black;">科研</span>了PMRHI后合金的触变<span style="color: black;">行径</span>和微观组织,探索了PMRHI后触变<span style="color: black;">行径</span>与微观组织的关系,并表征了由<span style="color: black;">成份</span><span style="color: black;">繁杂</span><span style="color: black;">引起</span>的多级半固态微观组织。该<span style="color: black;">科研</span>为快速球化制备细晶半固态HEAs,实现稳定的触变变形,为HEAs的力学性能<span style="color: black;">提高</span><span style="color: black;">供给</span>了有效的策略。</span></span></span></p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;"><span style="color: black;"><span style="color: black;">基于多主<span style="color: black;">成份</span>设计思想<span style="color: black;">研发</span>的高熵合金(HEAs)<span style="color: black;">拥有</span>优异的性能和广阔的<span style="color: black;">成份</span>设计空间,被认为是极端环境下服役的候选材料。<span style="color: black;">日前</span>,对快速增长的HEAs的加工和制造的迫切<span style="color: black;">需要</span><span style="color: black;">已然</span>显现。</span></span></p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;"><span style="color: black;"><span style="color: black;">半固态加工(SSP)是一种极具吸引力的金属加工成形<span style="color: black;">办法</span>,依赖于合金在固液区间的触变<span style="color: black;">行径</span>。SSP结合了固体成形和液体成形的优点,如低成形负荷,优越的近净成形能力,以及消除缺陷和<span style="color: black;">加强</span>性能的能力。自2017年首次报<span style="color: black;">败兴</span>,设计和探索出了许多半固态HEA,<span style="color: black;">拥有</span>稳定的窗口、力学性能<span style="color: black;">明显</span>改善以及灵活性的设计。</span></span></p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;"><span style="color: black;"><span style="color: black;">为了<span style="color: black;">得到</span>理想的半固态组织,<span style="color: black;">一般</span>需要严格<span style="color: black;">掌控</span>半固态等温时间和温度,以调节球化程度、晶粒尺寸、固液均匀性。已有<span style="color: black;">报告</span>的半固态HEAs是<span style="color: black;">经过</span>钢锭变形组织的再结晶和半固态重熔得到的,这限制了SSP的效率。基于此,哈尔滨工业大学姜巨福教授课题组尝试提出一种新的粉末冶金<span style="color: black;">办法</span>——快速加热等温保温(PMRHI),以期大幅削弱等温处理过程的<span style="color: black;">掌控</span>,该<span style="color: black;">办法</span>适用于以BCC结构为主的高强低塑性HEAs的加工。<span style="color: black;">科研</span>成果以题为“Thixotropic deformation behavior, rapid spheroidization and solid-liquid homogenization of semi-solid Al0.8Co0.5Cr1.5CuFeNi HEA with multilevel microstructure”<span style="color: black;">发布</span>于期刊《Scripta Materialia》。</span></span></p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;"><span style="color: black;"><span style="color: black;">该文<span style="color: black;">得到</span>国家自然科学基金项目(52071113)<span style="color: black;">帮助</span>,<span style="color: black;">第1</span>作者为黄敏杰博士<span style="color: black;">科研</span>生。</span></span></p>
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<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;"><span style="color: black;"><span style="color: black;">半固态HEA触变变形过程中存在剪切稀化效应,流动应力的双峰特征随着固粒滑移(SS)和含固粒液体流动(FLS)的进行而减弱,表现出固液均匀性和稳定的触变变形,<span style="color: black;">表示</span>了SSP在高强度HEA加工中的<span style="color: black;">潜能</span>。</span></span></p>
<div style="color: black; text-align: left; margin-bottom: 10px;"><img src="https://p3-sign.toutiaoimg.com/tos-cn-i-6w9my0ksvp/6b86cce94a4a4d89a416e1f5536d6fe9~noop.image?_iz=58558&from=article.pc_detail&lk3s=953192f4&x-expires=1728800818&x-signature=K1k%2B4mWLtDtsTaq1rB%2BKR5pzmhk%3D" style="width: 50%; margin-bottom: 20px;"></div>
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<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;"><span style="color: black;"><span style="color: black;">固液分布均匀性<span style="color: black;">能够</span><span style="color: black;">控制</span>液膜通道<span style="color: black;">导致</span>的空隙和热撕裂。在多层半固态组织中,凝固的液相与固相的取向关系近似为Kurdjumov-Sachs关系,固相中形<span style="color: black;">成为了</span>细小的富Al-Ni和Fe-Cr的旋节板和纳米Cu析出相。1 225 ℃/0.05 s-1的稳定触变变形后,合金力学性能<span style="color: black;">明显</span>改善。</span></span></p>
<div style="color: black; text-align: left; margin-bottom: 10px;"><img src="https://p3-sign.toutiaoimg.com/tos-cn-i-6w9my0ksvp/d40f9e54aba647fc93118a80f628565a~noop.image?_iz=58558&from=article.pc_detail&lk3s=953192f4&x-expires=1728800818&x-signature=saT3Zs8Odoramen0PvvN52jbCkg%3D" style="width: 50%; margin-bottom: 20px;"></div>
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