Role of Ti3AlC2 MAX phase on characteristics of in-situ synthesized TiAl intermetallics. Part III: microstructure

M. Akhlaghi, E. Salahi, S. A. Tayebifard, G. Schmidt
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引用次数: 2

Abstract

In this paper, the 3rd part of a series of publications on the sinterability and characteristics of TiAl–Ti3AlC2 composites, the microstructure development during the synthesis and sintering processes was studied by scanning electron microscopy (SEM). Chemical evaluation of various phases in the developed microstructures was performed using energy-dispersive X-ray spectroscopy (EDS) in different ways such as point, line scan and two-dimensional elemental map analyses. For this purpose, five samples were fabricated with different percentages of Ti3AlC2 MAX phase additive (10, 15, 20, 25 and 30 wt%). Ball-milling and spark plasma sintering (SPS: 900 °C/7 min/40 MPa) of as-purchased Al and Ti powders with already-synthesized Ti3AlC2 additive were selected as composite making methodology. SEM/EDS analyses verified the in-situ manufacturing of TiAl/Ti3Al intermetallics as the matrix during the SPS process and the presence of Ti3AlC2 as the ex-situ added secondary phase. Moreover, the in-situ synthesis of Ti2AlC, another member of MAX phases in Ti-Al-C system, was also detected in titanium aluminide grain boundaries and attributed to a chemical reaction between TiC (an impurity in the initial Ti3AlC2 additive) and TiAl components.
Ti3AlC2 MAX相对原位合成TiAl金属间化合物性能的影响第三部分:微观结构
本文是关于TiAl-Ti3AlC2复合材料的烧结性能和特性系列出版物的第3部分,利用扫描电子显微镜(SEM)研究了复合材料在合成和烧结过程中的微观结构发展。利用能量色散x射线能谱(EDS)以不同的方式,如点扫描、线扫描和二维元素图分析,对所开发的微观结构中的不同相进行化学评价。为此,用不同比例的Ti3AlC2 MAX相添加剂(10、15、20、25和30 wt%)制备了5个样品。采用球磨和放电等离子烧结(SPS: 900°C/7 min/40 MPa)制备Al和Ti粉末,并添加已合成的Ti3AlC2添加剂。SEM/EDS分析证实了在SPS过程中TiAl/Ti3Al金属间化合物作为基体的原位制造和Ti3AlC2作为非原位添加的二次相的存在。此外,Ti-Al-C体系中MAX相的另一个成员Ti2AlC也在钛铝化物晶界中被原位合成,并归因于TiC(初始Ti3AlC2添加剂中的杂质)与TiAl组分之间的化学反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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