β钛合金高温拉伸流动行为及断裂研究

Saurabh Rai, Kalyani Panigrahi
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引用次数: 0

摘要

本文对不同组织的亚稳态β合金进行了拉伸试验。β 21S是一种亚稳态合金,根据所使用的加工技术表现出广泛的材料特性。这篇论文中使用了三种不同的薄片,它们有相同的物质,但有三种不同的微观结构。在应变速率为0.001/s的情况下,在5种不同温度下对单片材进行拉伸试验。板材已发展出多种显微组织,材料的拉伸性质改变了合金的特性。描述了21S板在400°C, 500°C, 600°C和7000°C下的机械特性。室温下α相片的伸长率为1- 3%,而纯β相片的伸长率为22- 24%。随着α相温度的变化,薄片的延伸有了显著的改善。纯β相的伸长率不随温度的升高而改变。在各种温度下对断口表面进行了测试,确定了板料成形的最佳温度
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tensile Flow Behaviour and Fracture Studies of Beta Titanium Alloys at Elevated Temperatures
Tensile testing on metastable beta alloy with various microstructures was carried out in this study. Beta 21S is a metastable alloy that exhibits a wide range of material characteristics depending on the processing techniques used. Three different sheets that have been used in this paper which has the same substance but three different microstructures. At a strain rate of 0.001/s, the tensile test was done on a single sheet at five different temperatures. The sheet has developed varied microstructures, the tensile nature of the material varies the alloy’s characteristics. Mechanical characteristics for 400°C, 500°C, 600°C, and 7000°C are described for 21S sheets. The alpha phase sheet elongated at room temperature by 1-3 %, whereas the pure beta phase sheet elongated by 22-24 %. There is a significant improvement in the extension of the sheet with the variation in temperature for the alpha phase. The elongation of the pure beta phase does not alter as the temperature rises. The fracture surface was tested at all temperatures and the optimal temperature for forming the sheet has been determined
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