氢对钛-低铝-低锰合金加工硬化和断裂行为的影响

R. Haynes, P. Maddocks
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引用次数: 4

摘要

摘要:测定了两种细晶(α + β)钛合金的真应力/真应变曲线,分别以固溶体和固溶形式存在,并以膜状氢化物析出。在无氢化物试样中,合金的加工硬化分为高、低和中等加工硬化阶段。这三个阶段按发生的先后顺序分别为部分塑性变形、易滑动和抛物线硬化。氢化物的存在降低了初始流动应力,延长了第一阶段,消除了第二阶段,降低了第三阶段的加工硬化指数。这些变化被认为是由氢化物颗粒作为应力集中剂引起的,从而使局部塑性变形在低宏观应力水平下发生,并在加工硬化的早期阶段诱发复杂滑移。氢化物析出物也会造成市场上的延展性损失。
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The Effect of Hydrogen on the Work-Hardening and Fracture Behaviour of Titanium–Low-Aluminium–Low-Manganese Alloys
Abstract True stress/true strain curves have been determined for two fine-grained (α + β) titanium alloys containing various amounts of hydrogen, which was present either in solid solution or in solid solution and as a film-like hydride precipitate. In hydride-free specimens three stages, with high, low, and intermediate work-hardening exponents, are identified in the work-hardening of the alloys. The three stages, in order of occurrence, are attributed to partial plastic deformation, easy glide, and parabolic hardening. The presence of hydride lowers the initial flow stress, extends the first stage, eliminates the second stage, and lowers the work-hardening exponent of the third stage of work-hardening. These changes are believed to be caused by the hydride particles acting as stress concentrators, thus enabling localized plastic deformation to occur at low macroscopic stress levels and inducing complex slip at an early stage in work-hardening. Hydride precipitate also causes loss of ductility by markedl...
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