第一性原理拉伸试验中分离的 Cu 对 Fe 晶界的影响。

Effects of segregated Cu on an Fe grain boundary by first-principles tensile tests.

机构信息

Department of Energy Science and Technology, Graduate School of Energy Science, Kyoto University, Sakyo-ku, Kyoto, Japan.

出版信息

J Phys Condens Matter. 2010 Dec 22;22(50):505705. doi: 10.1088/0953-8984/22/50/505705. Epub 2010 Nov 26.

DOI:10.1088/0953-8984/22/50/505705

PMID:21406808

Abstract

Cu is known as one of the harmful tramp elements in recycled Fe. In the present work, the effects of Cu on Fe grain boundary (GB) embrittlement have been investigated by first-principles tensile tests. Because the Fe-Cu bonds are rather isotropic and the effects due to their difference in atomic size are negligibly small, the GB atomic structure prior to straining is little changed by Cu segregation. However, the Fe-Fe bond around the Cu atom is weakened due to charge transfer from the Fe atom to the Cu atom, and premature bond breaking occurs at the weakened Fe-Fe bond, resulting in an enhancement of GB embrittlement by Cu segregation. The s and p electrons play a vital role in the charge transfer.

摘要

铜被认为是再生铁中有害的杂质元素之一。在本工作中，通过第一性原理拉伸实验研究了铜对铁晶界（GB）脆化的影响。由于 Fe-Cu 键具有各向同性，且由于原子尺寸的差异而产生的影响可以忽略不计，因此在应变之前，Cu 偏聚对晶界原子结构的影响很小。然而，由于电荷从 Fe 原子转移到 Cu 原子，Cu 原子周围的 Fe-Fe 键被削弱，在被削弱的 Fe-Fe 键处发生过早的键断裂，从而导致 Cu 偏聚增强了晶界脆化。s 和 p 电子在电荷转移中起着至关重要的作用。

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第一性原理拉伸试验中分离的 Cu 对 Fe 晶界的影响。

Effects of segregated Cu on an Fe grain boundary by first-principles tensile tests.

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