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Fe-15Ni-0.6C合金马氏体浮凸及相变新机制
引用本文:刘宗昌,王海燕,林学强,任慧平. Fe-15Ni-0.6C合金马氏体浮凸及相变新机制[J]. 热处理, 2010, 25(6): 15-21
作者姓名:刘宗昌  王海燕  林学强  任慧平
作者单位:内蒙古科技大学材料与冶金学院,内蒙古包头014010
摘    要:对预先抛光的Fe-15Ni-0.6C合金试样进行真空热处理,随后用Nano First-1000型扫描隧道显微镜和QUANTA-400型环境扫描电镜对未经浸蚀的试样进行观察分析,发现,Fe-15Ni-0.6C合金马氏体片的浮凸为帐篷形(∧型),浮凸最高高度为43~96 nm。分析认为,马氏体表面浮凸是由于过冷奥氏体转变为马氏体时比体积增大、体积膨胀造成的,而非切变所致。对浮凸高度进行了理论计算,结果表明,马氏体线膨胀量比实测的浮凸高度大,计算的浮凸平均高度为162 nm,是膨胀过程受阻所致。浮凸非N形,是帐篷形,不具备切变特征,马氏体的切变机制缺乏实验依据,也与实际不符。提出了马氏体相变新机制。

关 键 词:Fe-Ni-C合金  马氏体  表面浮凸  切变  比体积  体积膨胀

Martensitic Surface Relief and New Martensite Transformation Mechanism for Fe-15Ni-0.6C Alloy
LIU Zong-chang,WANG Hai-yan,LIN Xue-qiang,REN Hui-ping. Martensitic Surface Relief and New Martensite Transformation Mechanism for Fe-15Ni-0.6C Alloy[J]. Heat Treatment, 2010, 25(6): 15-21
Authors:LIU Zong-chang  WANG Hai-yan  LIN Xue-qiang  REN Hui-ping
Affiliation:(School of Material and Metallurgy,Inner Mongolia University of Science and Technology,Baotou 014010,Inner Mongolia)
Abstract:The pre-polished specimens of Fe-15Ni-0.6C alloy were vacuum hot processed,and subsequently were observed and analyzed by means of Nano First-1000 scanning tunneling microscope(STM) and QUANTA-400 environment scanning electron microscope(SEM) under unetched condition.The results show that the martensite surface relief of Fe-15Ni-0.6C alloy is tent-like(∧-shaped)and its maximum height is 43 to 96 nm.The formation of martensitic surface relief is considered to arise from the increase in specific volume and thereby volume expansion instead of the shear.Theoretical calculation of surface relief height shows that the linear expansion amount of martensite is in excess of practically measured relief height and that the calculated average relief height is 162 nm,which is traced to the expansion process being blocked.The relief is not N-shaped but tent-like,and consequently can not be characterized by the shear.The shear mechanism of martensite transformation is lacking in experimental basis and inconsistent with actual situation.
Keywords:Fe-Ni-C alloy  martensite  surface relief  shear  specific volume  volume expansion
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