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Phase stability, porosity distribution and microstructural evolution of amorphous Al50Ti50 powders consolidated by electrical resistance sintering

机译：电阻烧结非晶态al50Ti50粉末的相稳定性，孔隙率分布和微观结构演变

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The effect of intensity and duration of the electrical resistance sintering process on the phase stability, porosity distribution and microstructural evolution of Al50Ti50 amorphous powders is studied. The phase transformations during the consolidation process were determined by X-ray diffraction. The porosity distribution was observed by optical and scanning electron microscopy. The amorphous phase is partially transformed to the crystalline phase during the sintering process, and formation of AlTi and AlTi3 intermetallic compounds occurs for temperatures higher than 300 °C. Finally, it is observed that the compacts core have lower porosity and a higher tendency to the amorphous-crystalline phase transformation than the periphery.

机译：研究了电阻烧结过程的强度和持续时间对Al50Ti50非晶态粉末的相稳定性，孔隙率分布和组织演变的影响。固结过程中的相变通过X射线衍射确定。通过光学和扫描电子显微镜观察孔隙率分布。在烧结过程中，非晶相部分转变为结晶相，并且温度高于300°C时会形成AlTi和AlTi3金属间化合物。最后，观察到，与周围相比，压实核具有较低的孔隙率和较高的向非晶-结晶相转变的趋势。

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Urban P.; Gómez Cuevas Francisco Paula; Montes J. M.; Cintas J.;
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年度 2015
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机译：烧结温度对机械合金化Al86Ni6Y6Co2无定形粉末火花等离子体烧结固相过程中相变的影响
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4. Phase Stability, Porosity Distribution and Microstructural Evolution of Amorphous Al_(50)Ti_(50) Powders Consolidated by Electrical Resistance Sintering [C] . P. Urban, F. G. Cuevas, J. M. Montes, International Congress in Advances in Applied Physics and Materials Science . 2015

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Phase stability, porosity distribution and microstructural evolution of amorphous Al50Ti50 powders consolidated by electrical resistance sintering

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