材料科学
软化
晶体孪晶
扭转(腹足类)
硬化(计算)
纳米晶材料
粒度
应变硬化指数
位错
冶金
复合材料
钛
结晶学
微观结构
纳米技术
化学
图层(电子)
外科
医学
作者
Chao Yang,Min Song,Yong Liu,Song Ni,Shima Sabbaghianrad,Terence G. Langdon
标识
DOI:10.1080/14786435.2016.1177230
摘要
Nanocrystalline titanium with an average grain size of about 60–70 nm was prepared by high-pressure torsion. The results of hardness and structural evolutions indicate that a strain-induced hardening–softening–hardening–softening behaviour occurs. For coarse-grained titanium, 〈a〉-type dislocation multiplication, twinning and a high pressure-induced α-to-ω phase transformation play major roles to accommodate deformation, leading to a significant strain hardening. As deformation proceeds, dynamic recrystallisation leads to a decrease in dislocation density, especially for 〈a〉-type dislocations, leading to a slight strain softening. The 〈c〉-component dislocation multiplication dominates the deformation when the grain size decreases to 100 nm and 〈c〉-component dislocation multiplication, grain refinement and the α-to-ω phase transformation contribute to the second strain hardening. The following strain softening is attributed to dynamic recovery.
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