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9Mn27Al10Ni3Si低密度钢的高温压缩变形行为及其机制 被引量:2

High Temperature Compression Deformation Behavior of 9Mn27Al10Ni3Si Low Density Steel
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摘要 使用Gleeble热模拟试验机、XRD、OM、SEM和TEM等手段研究了9Mn27Al10Ni3Si低密度钢在850~1050℃和0.01~5 s^(-1)条件下的热压缩变形特征及其机制。结果表明,对这种钢在850~950℃进行低应变速率(0.01~1 s^(-1))热压缩时,κ-碳化物的析出和粗化以及在热压缩过程中摩擦系数的增大使其应变达到临界值后流变应力明显增大;随着应变速率的提高,实验钢的孪生显著增强,显著加快了奥氏体的动态再结晶过程,使其在高应变速率热压缩时动态再结晶的程度比低应变速率压缩时更为显著。再结晶的软化作用,使上述流变应力异常增大的现象逐渐减弱甚至消失。 The deformation characteristics of 9Mn27Al10Ni3Si low density steel at 850~1050℃ with strain rate within the range of 0.01~5 s^(-1) were investigated by using Gleeble thermal simulator, XRD, OM,SEM and TEM. The results show that when the steel is hot compressed at 850~950℃ with low strain rate(0.01~1 s^(-1)), the flow stress of the steel increases obviously as the strain reaches a certain critical value,which may be due to the precipitation and coarsening of κ-carbides, and the increase of friction coefficient of the steel during hot compression. With the increase of strain rate, the number of twins increases significantly, which can speed up the process of dynamic recrystallization of austenite, however, during thermal compression by high strain rate, the dynamic recrystallization process is more significant rather than by low strain rate. Due to the softening effect of recrystallization, the abnormal rise of flow stress gradually weakens or even disappears.
作者 崔志强 张宁飞 王婕 侯清宇 黄贞益 CUI Zhiqiang;ZHANG Ningfei;WANG Jie;HOU Qingyu;HUANG Zhenyi(School of Metallurgical Engineering,Anhui University of Technology,Maanshan 243002,China)
机构地区 安徽工业大学冶金工程学院
出处 《材料研究学报》 EI CAS CSCD 北大核心 2022年第12期907-918,共12页 Chinese Journal of Materials Research
基金 安徽省高等学校自然科学研究项目(KJ2019ZD07)。
关键词 金属材料 低密度钢 动态再结晶 变形机制 孪生 κ-碳化物 metallic materials low-density steel dynamic recrystallization deformation mechanism twin κ-carbides
分类号 TG111.7 [金属学及工艺—物理冶金]
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材料研究学报
2022年 第12期

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