铜基合金中弹性各向异性与取代贝氏体的形成

Acta Metallurgica Pub Date : 1989-12-01 DOI:10.1016/0001-6160(89)90186-7

A. Schmitz, M. Chandrasekaran , G. Ghosh , L. Delaey

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引用次数: 13

摘要

本文强调了弹性各向异性在铜基合金缺陷处取代贝氏体(α1板)形成中的重要性。有人认为，在弹性各向异性介质中，像位错这样的缺陷可以通过降低能量因子K(弹性各向异性，因此取决于成分)来降低其能量，这反过来又会通过溶质还原导致缺陷周围更高的弹性各向异性。通过监测β Cu-Zn-Al中方向不稳定位错的弹性各向异性相关弯曲角作为等温时效最终导致贝氏体形成的函数，TEM证据证明了这一点。讨论了弹性各向异性在促进溶质扩散和剪切中的作用及其在贝氏体形成初期的意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Elastic anisotropy and the substitutional bainite formation in copper base alloys

The importance of elastic anisotropy in the substitutional bainite (α₁ plate) formation at defects in copper base alloys has been emphasized in this work. It has been argued that a defect such as a dislocation in an elastically anisotropic medium could lower its energy by reducing the energy factor K (elastic anisotropy and thus composition dependent) which in turn would lead to higher elastic anisotropy around the defect through solute reduction. Proof for this is provided through TEM evidence, monitoring the elastic anisotropy dependent bend angles of directionally unstable dislocations in β Cu-Zn-Al as a function of isothermal ageing which eventually leads to bainite formation. The role of elastic anisotropy in promoting both solute diffusion and shear and its implications on the initial stages of bainite formation are discussed.

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Acta Metallurgica

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