fcc和bcc钢板在超高速撞击下的微观组织差异

doi:10.11900/0412.1961.2023.00154

金属学报 DOI: 10.11900/0412.1961.2023.00154

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fcc和bcc钢板在超高速撞击下的微观组织差异

孙欢腾,马运柱,蔡青山,王健宁,段有腾,张梦祥

中南大学粉末冶金研究院长沙 410083

Differential Microstructure Between fcc and bcc Steel Plate Under Hyper-Velocity Impact

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摘要: 不同晶体结构钢板在动态加载(撞击)下的微观组织特征响应问题是当前研究的热点与前沿问题。为研究不同晶体结构钢板在超高速撞击加载下的微观组织差异，利用二级轻气炮对304不锈钢和Q345钢板(2种典型晶体结构钢板)进行撞击实验，利用XRD、EBSD、TEM等表征方法对撞击后的钢板微观组织特征进行表征分析。结果表明，在撞击条件下，304不锈钢板会发生-马氏体相变，并有少量的-马氏体相变发生，母相-奥氏体与-马氏体之间存在K-S位向关系。Q345钢板在撞击下未发生明显的相变，但其{200}晶面的衍射峰发生明显右移，晶面间距减少，{110}晶面的衍射峰强度大幅增加。从组织形貌看，在撞击条件下，304不锈钢板未有明显的晶体组织拉长现象，而Q345钢板发生了明显的晶体组织分层现象。

关键词 ：超高应变率, 微观组织特征, 冲击诱导马氏体相变, 动态力学行为, 晶体结构

Abstract：The study of the dynamic behavior of materials under impact conditions is crucial in aerospace and defense industries. These materials are subjected to high speed and hyper-velocity impacts, high temperature, high pressure, and considerable deformation. Notably, many crystal-structured steel plates exhibit similar variability when subjected to impact conditions. A current and cutting-edge topic in contemporary research is the exploration of the microstructure properties of steel plates with various crystal structures under impact. This study aims to investigate the microstructural change of various crystalline structural steel materials under impact loads with high velocities. Two typical crystalline structural steels, Q345 and 304 stainless steels, were tested in impact tests using a two-stage light-gas pistol. The microstructure features of the steel plate under impact were characterized and examined using characterization techniques like XRD, EBSD, and TEM. Under impact conditions, the 304 stainless steel plate did not show any significant flanging phenomena at the macro level. However, there is a minor degree of -martensite transition and micro -martensite transformation that occurs on 304 stainless steel plates. Austenite and martensite have a similar K–S orientation relationship. Under the impact condition, the Q345 steel plate displays macro-level flipping properties but no overt micro-level phase transition. However, the diffraction peak on the {110} crystal plane substantially increases, the space between crystal planes narrows, and the {200} crystal plane shows a considerable diffraction peak shift to the right, creating the grains’ preferred orientation. In terms of organizational morphology, the Q345 steel plate exhibits considerable crystal structure delamination under impact, whereas 304 stainless steel did not display significant crystal structure elongation. The two types of steel plates have various macroscopic fracture modes owing to their differing crystal structures. Specifically, the Q345 steel demonstrates plastic fracture properties, whereas 304 stainless steel displays almost brittle fracture characteristics. The twin grain boundary of austenite is where martensite forms based on the calibration of electron diffraction spots. The study of impact experimental mechanisms, the design of steel plate protection, and the development of penetration tests can all benefit from the research findings presented in this article.

收稿日期: 2023-04-07

ZTFLH:

TG 111

基金资助:国家自然科学基金;湖南省自然科学基金

通讯作者: 蔡青山

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引用本文:

孙欢腾马运柱蔡青山王健宁段有腾张梦祥. fcc和bcc钢板在超高速撞击下的微观组织差异[J]. 金属学报, 10.11900/0412.1961.2023.00154.

链接本文:

https://www.ams.org.cn/CN/Y0/V/I/0

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