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首页> 外文期刊>Materials Science and Engineering. A, Structural Materials >Effects of alloying elements on martensitic transformation behavior and damping capacity in Fe-17Mn alloy
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Effects of alloying elements on martensitic transformation behavior and damping capacity in Fe-17Mn alloy

机译:合金元素对Fe-17Mn合金马氏体相变行为和阻尼能力的影响

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摘要

Effect of carbon and Ti on γ reversible ε martensitic transformation behavior and damping capacity is investigated in an Fe-17Mn alloy. The suppressive force of carbon against γ → ε transformation increase linearly with an increase in its content, lowering Ms temperature and volume fraction of ε martensite. Carbon deteriorates damping capacity by reducing the area of γ/ε boundaries and mobility of the boundaries contributing to anelastic deformation. The reduction in the mobility of the boundaries is accelerated when carbon-containing alloy is aged at higher temperatures than room temperature. The effect of Ti on damping capacity is found to be beneficial in carbon-containing alloy, which is attributed to the depletion of carbon solute due to the formation of TiC.
机译:研究了碳和钛对Fe-17Mn合金中γ可逆ε马氏体相变行为和阻尼能力的影响。碳对γ→ε相变的抑制力随其含量的增加而线性增加,降低Ms温度和ε马氏体的体积分数。碳会通过减小γ/ε边界的面积和边界的迁移率而降低阻尼能力,从而导致非弹性变形。当含碳合金在高于室温的温度下时效时,边界迁移率的降低加速。发现Ti对阻尼能力的影响在含碳合金中是有益的,这归因于由于TiC的形成导致碳溶质的耗尽。

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