Structure and Phase Transition of Fe-Mn Alloy Powders Prepared by Gas Atomization

Changjiang Song; Libing Liu; Qijie Zhai; Yang Yang; Yunhu Zhang

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Structure and Phase Transition of Fe-Mn Alloy Powders Prepared by Gas Atomization

机译：气相雾化法制备的铁锰合金粉末的结构与相变

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In this paper we investigated the microstructure and phase transition of atomized Fe-(1.3, 7.9, 11.7 wt.%) Mn alloy powders. The results show that the main phases of Fe-1.3Mn, Fe-7.9Mn and Fe-11.7Mn powders are ferrite, α’-martensite+austenite, α’-martensite+ε-martensite+austenite, respectively. The δ-ferrite in the Fe-1.3Mn powder is the high-temperature δ-ferrite directly formed from liquid, companying by a small number of nanometer sized austenite particles precipitated from the ferrite matrix. In the Fe-11.7Mn powder, the γ-austenite, ε-martensite and α’-martensite are found in the same region and have the K-S orientation relationship, suggesting phase transitions of γ-austenite → ε-martensite → α’-martensite and γ → α’-martensite.

机译：在本文中，我们研究了雾化的Fe-（1.3，7.9，11.7 wt。％）Mn合金粉末的微观结构和相变。结果表明，Fe-1.3Mn，Fe-7.9Mn和Fe-11.7Mn粉末的主要相分别为铁素体，α'-马氏体+奥氏体，α'-马氏体+ε-马氏体+奥氏体。 Fe-1.3Mn粉末中的δ-铁素体是直接由液体形成的高温δ-铁素体，由少量从铁素体基体中析出的纳米级奥氏体颗粒组成。在Fe-11.7Mn粉末中，γ-奥氏体，ε-马氏体和α'-马氏体存在于同一区域，并具有KS取向关系，表明γ-奥氏体→ε-马氏体→α'-马氏体的相变。和γ→α'-马氏体。

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《Materials Research》 |2015年第18期|共10页
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Changjiang Song; Libing Liu; Qijie Zhai; Yang Yang; Yunhu Zhang;
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1. Structure and Phase Transition of Fe-Mn Alloy Powders Prepared by Gas Atomization [J] . Changjiang Song, Libing Liu, Qijie Zhai, Materials Research . 2015,第18期

机译：气相雾化法制备的铁锰合金粉末的结构与相变
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3. Microstructure and properties of Cu-Cr-Nb alloy powder prepared by argon gas atomization [J] . Lv Xueqian, Liu Zuming, Lei Ting, Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan . 2019,第11期

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5. Defect structure of rare-earth doped indium phosphide and indium gallium phosphide alloys prepared by metalorganic vapor phase epitaxy [D] . Neuhalfen, Andrew J. 1992

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Structure and Phase Transition of Fe-Mn Alloy Powders Prepared by Gas Atomization

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