形状:形状记忆合金通过卤化物活化包平衡

A. S. King, D. Lipke, R. D. Dempsey, D. Lipke
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引用次数: 0

摘要

镍钛诺形状记忆合金的增材制造必须达到严格的化学标准。本工作描述了一种高温气固反应处理技术,可用于精确调节镍钛诺组分的化学和相变行为。该技术,形状记忆合金通过卤化物活化包平衡(Shape),采用已建立的化学蒸汽传输原理来平衡衬底和反应包混合物,旨在根据吉布斯相规则调节镍和钛的化学势,作为精确控制衬底相和元素组成的手段。结果表明,当与镍钛诺的增材制造或熔焊相结合时,SHAPE可能具有横切潜力,以提高产品质量。尽管未来的应用,SHAPE受到固态扩散的限制,这反过来又限制了合适组件的实际厚度约为1毫米。已经确定了继续开发的机会,可以应用于其他组合物,并进一步完善微观结构控制。
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SHAPE: Shape Memory Alloys via Halide-Activated Pack Eqilibration
Achieving stringent chemistry standards is necessary for additive manufacturing of Nitinol shape memory alloys. This work describes an elevated temperature gas-solid reaction processing technique that can be used to precisely regulate the chemistry and phase transformation behaviors of Nitinol components. The technique, Shape memory alloys via Halide-Activated Pack Equilibration (SHAPE), employs established principles of chemical vapor transport to equilibrate a substrate against reactive pack mixtures designed to regulate the chemical potentials of nickel and titanium in accordance with Gibbs' phase rule as means to precisely control substrate phase and elemental composition. The results suggest that SHAPE may find crosscutting potential especially when paired with additive manufacturing or fusion welding of Nitinol to improve product quality. Notwithstanding future applications, SHAPE is limited by solid-state diffusion that, in turn, limits the practical thickness of suitable components to about 1 mm. Opportunities for continued development have been identified for application to other compositions, and to further refine microstructure control.
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