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Effect of strain rate on α-lath thickness of TC17 alloy after deformation and subsequent heat treatment

机译：菌株对TC17合金α-Lath厚度的影响及随后热处理

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摘要

Effect of strain rate on α-lath thickness of TC17 alloy with a basketweave microstructure was studied in the present work. For this purpose, this alloy was deformed in the β phase region and subsequently soluted and aged in α+β phase region. Moreover, optical micrograph (OM) and electron backscatter diffraction (EBSD) were applied to analyze the change of lath thickness at different strain rates. The result showed that α-lath thickness increased with increasing strain rate. This phenomenon was possibly attributed to the higher degree of variant selection (DVS) at higher strain rate (0.1 s~(-1)). The higher DVS was beneficial for the formation of parallel α-lath colonies during cooling after deformation. And, these parallel α-lath colonies would more easily grow up and coarsen during subsequent heat treatment. Therefore, α-lath at higher strain rate is more thick.

机译：本工作研究了应变率对TC17合金α-Lath厚度的影响。为此目的，该合金在β相区域中变形并随后在α+β相区域中沉淀并老化。此外，光学显微照片（OM）和电子反向散射衍射（EBSD）被应用于分析不同应变率的板条厚度的变化。结果表明，随着应变率的增加而增加α-Lath厚度。这种现象可能归因于较高应变率的变体选择（DVS）（0.1S〜（-1））。较高的DVS有利于在变形后在冷却过程中形成平行α-Lath菌落。并且，在随后的热处理期间，这些平行的α-Lath菌落将更容易地延长并粗糙。因此，α-Lath以较高的应变速率更加厚。

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《World Conference on Titanium》|2020年|1545-2307 p.|共7页
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作者
Zimin Lu; Jiao Luo; Miaoquan Li;
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中图分类 O612.4-532;
关键词
TC17 alloy; Basketweave microstructure; α-lath thickness; Electron backscattered diffraction;

机译：TC17合金;篮式微观结构;α-Lath厚度;电子背散射衍射;

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机译：菌株对TC17合金α-Lath厚度的影响及随后热处理
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机译：变形及随后热处理后TC17合金α-Lath厚度的应变率对α-Lath厚度的影响

Effect of strain rate on α-lath thickness of TC17 alloy after deformation and subsequent heat treatment

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