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X射线衍射法测定Fe-Mn-Si形状记忆合金层错几率的研究 被引量:10

On the Determination of the Stacking-fault Probability by Xray Diffraction in Fe-Mn-Si Shape Memory Alloy
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摘要 Fe-Mn-Si合金的形状记忆效应来源于马氏体相变,而马氏体相变则通过奥氏体内形成每隔一层{111}面上的堆垛层错来完成。与层错能相关的层错几率可能控制马氏体的相变机制。本文根据Waren的衍射理论,用X射线衍射峰位移和峰宽化两种方法测定了Fe-Mn-Si合金的层错几率,其结果表明随锰含量增加,层错几率降低。本文着重对提高衍射峰位移和峰宽化两种测定方法的精度及其影响因素进行详细的研究。 The shape memory effect of Fe-Mn-Si alloy is the result from the martensitic transformation,while the martensitic transformation is completed by means of stackingfault on every second layer of {111} planes in austenite.The martensitic transformation mechanism may be controlled by stackingfault probability (SFP) associated with the stacking-fault energy.The stackingfault probabilities of Fe-Mn-Si alloys have been determined in this paper using the two methods (peakshift and peakbroad) of Xray diffraction on the basis of Warren's theory.The results indicated that the SFP decreased with increase of the content of Mn.In the present work, it is emphasized the research on the improvement of precision and influence factors for these two methods,and it is considered that peakshift method is simpler.
作者 何刚 许二冬 戎咏华 徐祖耀 熊樱菲
机构地区 上海交通大学材料科学与工程学院 上海博物馆
出处 《功能材料》 EI CAS CSCD 北大核心 1999年第2期155-157,共3页 Journal of Functional Materials
基金 国家自然科学基金
关键词 FE-MN-SI合金 层错几率 形状记忆合金 X射线衍射 Fe-Mn-Si alloy stackingfault probability peakshift peakbroad
分类号 TG139.6 [一般工业技术—材料科学与工程]
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共引文献4

同被引文献87

  • 1梁高飞,林常青,于艳,方园.高强塑性高锰钢的研究进展[J].铸造技术,2009,30(3):404-407. 被引量:12
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  • 4张建民,吴喜军,黄育红,徐可为.fcc金属层错能的EAM法计算[J].物理学报,2006,55(1):393-397. 被引量:17
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1999年 第2期

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