Due to their excellent shape memory and superelasticity properties, NiTi compounds are considered among the most important shape memory alloys. The present work presents a synthesis method for obtaining dense NiTi from elemental powders using a modified spark plasma sintering (SPS) setup characterized by considerably higher current density through the sample at the same total current, as well as drastically decreased heat losses. This provides the possibility to maximize the use of the strong effect of current density on enhanced interdiffusion in metal-metal systems reported in the literature. In addition, the heat loss reduction results in significantly lower total power consumption for synthesis compared to the commonly used SPS setups. The new setup is based on a metallic die/plunger set, combined with a graphite heat generating foil and a thermoelectrical insulation layer. The effect of the processing time on the homogenization of NiTi and the evolution of the intermetallic compounds with time is studied and compared to conventional SPS. Blending for 5 minutes and processing for 30 minutes (with neither preheating, nor postheating, nor quench) were enough to get almost pure dense cubic NiTi (rho = 6.10 g cm~(-3), dominant NiTi phase approx = 97 pct). A small fraction of both Ti and NiTi_2, but neither Ni nor Ni_3Ti, was detected after 20 minutes of processing. Ni_4Ti_3 was detected but not quantified.
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机译:由于其出色的形状记忆和超弹性,NiTi化合物被认为是最重要的形状记忆合金之一。本工作提出了一种使用改进的火花等离子体烧结(SPS)装置从元素粉末中获得致密NiTi的合成方法,该装置的特征是在相同的总电流下通过样品的电流密度明显更高,并且热损失显着降低。这提供了最大可能地利用文献中报道的电流密度对增强金属-金属系统相互扩散的强大作用的可能性。此外,与常用的SPS设置相比,减少热量损失可显着降低合成的总功耗。新的设置基于金属模具/柱塞组件,结合了石墨发热箔和热电绝缘层。研究了处理时间对NiTi均质化和金属间化合物随时间的演变的影响,并将其与常规SPS进行了比较。共混5分钟并加工30分钟(既不预热也不后热,也不淬火)就足以得到几乎纯的立方NiTi(rho = 6.10 g cm〜(-3),主要的NiTi相约为97 pct)。在处理20分钟后,仅检测到Ti和NiTi_2的一小部分,但未检测到Ni和Ni_3Ti。检测到Ni_4Ti_3,但未量化。
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