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引用次数: 8
摘要
摘要:研究了一系列双相(α + β′)和α +共析Cu-Al合金的变形行为。描述了马氏体或共析体作为第二相对流动应力、加工硬化和总伸长率的影响。在较大的应变下,马氏体的强化作用大于共析体。应力-应变曲线分析表明,应变硬化指数n随应变的变化是连续的,基于Ludwik方程(σ = σ0 + k ' ep n ')进行分析。结果表明,具有较高延展性的合金表现为三阶段行为。根据所涉及的变形机制,提出了对这一阶段行为的解释。
Deformation behaviour of two phase materials: Cu-Al system
Abstract A study has been made of the deformation behaviour of a series of dual phase (α + β′) and α + eutectoid Cu-Al alloys. The effect of martensite or eutectoid as the second phase on flow stress, work hardening, and total elongation is described. It is seen that the strengthening effect of martensite becomes greater than that of eutectoid at larger strains. Analysis of stress–strain curves shows that the strain hardening exponent n changes continuously with strain and, as such, the analysis based on the Ludwik equation (σ = σ0 + k′ep n′) is performed. It is found that alloys showing higher ductility exhibit a three stage behaviour. An explanation for this stage behaviour in terms of the deformation mechanisms involved is presented.
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