Influence of the helical rolling and controlled cooling to impact toughness of titanium alloy Ti-6Al-3Mo

A. E. Kuznetsova, E. Naydenkin, A. Yakovlev, J. Gomorova, I. Vlasov
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Abstract

The paper studies the evolution of the structure, phase composition, and impact toughness of the Ti-6Al-3Mo titanium alloy after two types of processing, one of them is included heating and hot helical rolling with quenching in water (mode I). The additional air quenching is used between the rolling and quenching processes in mode II. This approach with combining two cooling stages (in air and in water) of the alloy makes possible to control the recrystallization time and form a gradient structure over the cross-section of the bar stock. The processing of titanium alloy according to mode I lead to decrease of impact strength. The addition of air-cooling stage (in mode II) leads to insignificant decrease hardness and increase toughness of alloy. The treatment by mode I and II of the titanium alloy lead to formation of the structure which contain large grains of the primary α-phase in thin-plate structure of the secondary α-phase in the β-phase. It is shown that the obtained structure states of alloy affect to crack propagation under impact loading and changing the amount of energy which spent to the complete destruction of the samples.
螺旋轧制和控制冷却对Ti-6Al-3Mo钛合金冲击韧性的影响
本文研究了Ti-6Al-3Mo钛合金经过两种加工方式的组织、相组成和冲击韧性的演变,其中一种是加热和热螺旋轧制并在水中淬火(模式一),另一种是在轧制和淬火之间附加空气淬火(模式二)。这种方法结合了合金的两个冷却阶段(在空气和水中),可以控制再结晶时间,并在棒材的横截面上形成梯度结构。按模式一加工钛合金会导致冲击强度下降。空冷阶段(II型)的加入对合金的硬度降低不明显,但对合金的韧性有提高作用。钛合金经I型和II型处理后,形成了含有大晶粒的初生α-相薄板组织和次生α-相薄板组织。结果表明,合金的组织状态在冲击载荷作用下影响裂纹扩展,并改变试样完全破坏所需的能量。
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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