First-Principles Study on the Grain Boundary Embrittlement of Metals by Solute Segregation: Part I. Iron (Fe)-Solute (B, C, P, and S) Systems

MASATAKE YAMAGUCHI

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First-Principles Study on the Grain Boundary Embrittlement of Metals by Solute Segregation: Part I. Iron (Fe)-Solute (B, C, P, and S) Systems

机译：溶质偏析金属的晶界脆化的第一性原理研究：第一部分铁（Fe）-溶质（B，C，P和S）系统

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The microscopic mechanism of grain boundary (GB) embrittlement in metals by solute segregation has been not well understood for many years. From first-principles calculations, we show here that the calculated cohesive energy ( = 2-surface energy - GB energy) of bcc Fe ?3(111) symmetrical tilt grain boundary (STGB) is reduced by the segregation of sulfur (S) and phosphorous (P) while it is increased by the segregation of boron (B) and carbon (C). The rate of the decrease/increase in the cohesive energy is proportional to the experimental shift in the DBTT of high-purity iron with increasing segregation. This indicates that the change in the cohesive energy of GB plays a key role in the GB embrittlement of metals.

机译：多年来，人们对金属因溶质偏析而脆化的晶界（GB）脆化的微观机理尚未完全了解。从第一性原理计算，我们在这里表明，由于硫（S）和铁的偏析，bcc Fe？3（111）对称倾斜晶界（STGB）的计算凝聚能（= 2表面能-GB能量）降低了。磷（P），但由于硼（B）和碳（C）的偏析而增加。内聚能的减少/增加的速率与高纯铁的DBTT随偏析增加的实验位移成正比。这表明GB的内聚能的变化在GB的金属脆化中起关键作用。

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《Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science》 |2011年第2期|共11页
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MASATAKE YAMAGUCHI;
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机译：溶质偏析对金属晶粒边界脆化的第一性原理研究：第一部分铁（Fe）-溶质（B，C，P和S）系统
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First-Principles Study on the Grain Boundary Embrittlement of Metals by Solute Segregation: Part I. Iron (Fe)-Solute (B, C, P, and S) Systems

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