Reviewing the class of Al-rich Ti-Al alloys: modeling high temperature plastic anisotropy and asymmetry

IF 4.03

Mechanics of Advanced Materials and Modern Processes Pub Date : 2017-10-02 DOI:10.1186/s40759-017-0031-3

Helal Chowdhury, Holm Altenbach, Manja Krüger, Konstantin Naumenko

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引用次数: 3

Abstract

In the last decades, the class of Ti-rich TiAl-based intermetallic materials has replaced many contemporary alloys till 900 °C. Due to higher oxidation resistance, 20% lower density and higher (about 150 °C more) operating temperature possibility of Al-rich TiAl alloys over Ti-rich side, phases from the Al-rich region of this alloy system are considered to be highly potential candidates for high temperature structural applications. Although there are a lot of works about Ti-rich alloys, however, investigation from the Al-rich side is very limited. This work reviews the class of Al-rich TiAl alloys in terms of phases, microstructures, morphology, deformation mechanisms, mechanical behaviors along with a possible micromechanical modeling approach. Single crystal like Ti-61.8at.%Al alloy from the Al-rich family has been chosen as an example for modeling high temperature anisotropy and tension-compression asymmetry. A possible comparison with Ti-rich side is also presented.

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富铝Ti-Al合金:高温塑性各向异性和非对称性模型

在过去的几十年里，一类富含钛的钛基金属间材料已经取代了许多当代合金，直到900°C。由于富铝TiAl合金的抗氧化性更高，密度低20%，工作温度比富钛侧高(约150°C以上)，该合金体系中富铝区域的相被认为是高温结构应用的极有潜力的候选者。虽然有很多关于富钛合金的工作，但是从富铝方面的研究非常有限。本文从相、显微组织、形貌、变形机制、力学行为以及可能的微力学建模方法等方面综述了一类富al TiAl合金。单晶如Ti-61.8at。本文以富铝合金为例，对其高温各向异性和拉压不对称性进行了模拟。并与富钛侧进行了比较。

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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Mechanics of Advanced Materials and Modern Processes

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