DISSOLUTION OF IRON TO COPPER IN Fe60Cu40 ALLOY BY MECHANICAL ALLOYING AND SUBSEQUENT DECOMPOSITION

doi:10.1088/1004-423X/3/8/002

Abstract

Abstract A metastable alloy with composition Fe₆₀Cu₄₀ can be prepared in single phase of a fcc structure by mechanical alloying, although Fe-Cu system is virtually immiscible in its equilibrium state at ambient temperature. The M$\ddot{\rm o}$ssbauer spectra of this supersaturated solid solution could be fitted by two subspectra whose hyperfine magnetic fields are 200 kOe and 250kOe. In this metastable alloy, the iron atoms at the interface are easy to form clusters characterized as $\alpha$-Fe at a temperature below 250℃, whereas the iron atoms in the body will cluster together at a higher temperature above 350℃ and behave as $\gamma$-Fe, and then transform to ferromagnetic bcc iron occurs.

Received: 26 July 1993
Revised: 11 March 1994
Accepted manuscript online:

PACS:	64.75.-g	(Phase equilibria)
	81.20.Ev	(Powder processing: powder metallurgy, compaction, sintering, mechanical alloying, and granulation)
	76.80.+y	(M?ssbauer effect; other γ-ray spectroscopy)
	75.50.Bb	(Fe and its alloys)
	61.43.Gt	(Powders, porous materials)

Fund: Project supported by the National Natural Science Foundation of China and the Laboratory of Structure Analysis, University of Science and Technology of China.

Cite this article:

YANG YUAN-ZHENG (杨元政), MA XUE-MING (马学鸣), WANG GEN-MIAO (王根苗), DONG YUAN-DA (董远达), ZHUANG YU-ZHI (庄育智) DISSOLUTION OF IRON TO COPPER IN Fe₆₀Cu₄₀ ALLOY BY MECHANICAL ALLOYING AND SUBSEQUENT DECOMPOSITION 1994 Acta Physica Sinica (Overseas Edition) 3 567

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DISSOLUTION OF IRON TO COPPER IN Fe60Cu40 ALLOY BY MECHANICAL ALLOYING AND SUBSEQUENT DECOMPOSITION

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DISSOLUTION OF IRON TO COPPER IN Fe₆₀Cu₄₀ ALLOY BY MECHANICAL ALLOYING AND SUBSEQUENT DECOMPOSITION