Superplasticity of Ti-6Al-7Nb alloys with different initial microstructures processed by high-pressure torsion

Superplasticity in Advanced Materials Pub Date : 2023-07-10 DOI:10.21741/9781644902615-7

Kathy González Jiménez, Joaquín E. González Hernández, J. M. Cubero-Sesin, Jeremy Barrantes Rodríguez, Z. Horita

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Abstract

Abstract. Ti-6Al-7Nb alloy was quenched below and above the β-phase field and processed by high-pressure torsion (HPT) to produce different grain sizes in the ultra-fine range. The influence of temperature and strain rate over the superplastic properties, activation energy and strain rate sensitivity were evaluated by high temperature tensile tests. The mechanical properties were complemented with Vickers microhardness measurement of heat treated and HPT-processed samples. The crystallographic analysis was performed through XRD and EBSD studies in the grip and tip of the high temperature tensile specimens. Microhardness measurements show significant hardening with respect to the imposed strain after HPT. Meanwhile, high superplastic elongation of 1200% was accomplished at 850 °C with a strain rate of 2x10-3 s-1. EBSD studies of the failed specimens suggest that the tip part exhibited dynamic recrystallization during tensile test, which produced a larger grain size of ~5.1 µm and higher fraction of β phase of 3.7%, with respect to the grip part under static recrystallization, which attained ~3.4 µm grain size and 3.3% β phase fraction.

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高压扭转处理不同初始组织Ti-6Al-7Nb合金的超塑性

摘要对Ti-6Al-7Nb合金在β相场下方和上方进行淬火，并进行高压扭转(HPT)处理，在超细范围内产生不同尺寸的晶粒。通过高温拉伸试验考察了温度和应变速率对材料超塑性性能、活化能和应变速率敏感性的影响。对热处理和高温高压热处理后的试样进行了维氏显微硬度测量。通过XRD和EBSD对高温拉伸试样的握把和尖端进行了晶体分析。显微硬度测量表明，相对于HPT后施加的应变，显著硬化。同时，在850℃下，应变速率为2x10- 3s -1，可获得1200%的高超塑性伸长率。失效试样的EBSD研究表明，在拉伸试验过程中，尖端部分发生了动态再结晶，晶粒尺寸为~5.1 μ m， β相分数为3.7%，而在静态再结晶过程中，握把部分的晶粒尺寸为~3.4 μ m， β相分数为3.3%。

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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Superplasticity in Advanced Materials

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