Martensite formation during mechanical alloying of Fe--Ni and martensitic transformation

Chin J Mater Res

2004, Vol. 18

Issue (3): 327-331 DOI:

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Martensite formation during mechanical alloying of Fe--Ni and martensitic transformation

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上海大学

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. Martensite formation during mechanical alloying of Fe--Ni and martensitic transformation. Chin J Mater Res, 2004, 18(3): 327-331.

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Abstract Effects of nickel content and mechanical alloying parameters on martensitic transformation during mechanical alloying of Fe--Ni as well as the mechanism were studied. There exists martensitic transformation during mechanical alloying of Fe--Ni, but whether reverse transformation takes place with further mechanical alloying depends on the nickel content. For nickel content less than 30\%(mass fraction), the highest temperature due to mechanical alloying is not high enough to reach the temperature at which strain--induced transformation of martensite to austenite starts, therefore martensite remains. However, further mechanical alloying of Fe--35Ni results in the transformation of martensite to austenite because strain-induced transformation temperature is lower. During mechanical alloying of Fe--35Ni, austenitic volume fraction increases with the increase of milling time, planetary rotation speed and the mass ratio of ball--to--powder because more energy can be provided for phase transformation.

Key words: metallic materials martensite mechanical alloying phase transformation

Received: 19 July 2004

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