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Plastic Flow and Microstructure Evolution During Low Temperature Superplasticity of Ultrafine Ti-6AL-4V Sheet Material (Preprint)

机译：超细Ti-6aL-4V板材低温超塑性塑性流动及组织演变（预印）

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The low-temperature superplastic flow behavior of two lots of Ti-6Al- 4V sheet, each with an ultrafine microstructure, was established by performing tension tests at temperatures of 775 and 815 degrees C and true strain rates of 10-4 and 10-3 s-1. The as-received microstructures of the two materials comprised either equiaxed or slightly-elongated alpha particles in a beta matrix. The material with equiaxed-alpha particles exhibited flow hardening which was correlated with concurrent (dynamic) coarsening. The rate of dynamic coarsening was rationalized in terms of static coarsening measurements and the enhancement of kinetics due to pipe diffusion. By contrast, the material with initially elongated alpha particles exhibited comparable flow hardening at the lower strain rate but a complex, near-steady state behavior at the higher strain rate. These latter observations were explained on the basis of evolution of alpha-particle shape and size during straining; dynamic coarsening or dynamic spheroidization was concluded to be most important at the lower and higher strain rates, respectively. The plastic-flow behavior was interpreted in the context of a long-wavelength flow-localization analysis.

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Semiatin, S. L.; Fagin, P. N.; Betten, J. F.; Zane, A.; Ghosh, A. K.;
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年度 2009
页码 p.1-48
总页数 48
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Superplasticity ; Microstructure ; Plastic flow ; Titanium alloys ; Low temperature ; Alpha particles ; Ultrafines ; Kinetics ; Tension ; Strain rate ; Steady state ; Test and evaluation ; Diffusion;

机译：超塑性;微观结构;塑性流动;钛合金;低温;α粒子;超细;动力学;张力;应变率;稳态;测试与评价;扩散;

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1. Plastic Flow and Microstructure Evolution during Low-Temperature Superplasticity of Ultrafine Ti-6Al-4V Sheet Material [J] . S.L. SEMIATIN, P.N. FAGIN, J.F. BETTEN Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2010,第2期

机译：Ti-6Al-4V超细板材低温超塑性过程中的塑性流动和组织演变
2. Constitutive Modeling of Low-Temperature Superplastic Flow of Ultrafine Ti-6Al-4V Sheet Material [J] . S.L. Semiatin, G.A. Sargent Key Engineering Materials . 2010,第期

机译：Ti-6Al-4V超细板材低温超塑性流动的本构模型
3. Flow behavior and microstructure in Ti-6A1-4V alloy with an ultrafine-grained α-single phase microstructure during low-temperature-high-strain-rate superplasticity [J] . Hiroaki Matsumoto, Vincent Velay, Akihiko Chiba Materials & design . 2015,第feba期

机译：高温高应变率超塑性下具有超细α-单相组织的Ti-6A1-4V合金的流动行为和组织
4. Constitutive Modeling of Low-Temperature Superplastic Flow of Ultrafine Ti-6Al-4V Sheet Material [C] . S.L. Semiatin, G.A. Sargent International Conference on Superplasticity in Advanced Materials . 2010

机译：超细Ti-6AL-4V片材低温超塑性流动的本构模拟
5. Material flow and microstructure evolution in friction stir welding of AA6111 alloy sheets. [D] . Yadava, Manasij Kumar. 2009

机译：AA6111合金薄板摩擦搅拌焊接中的材料流动和组织演变。
6. Superplasticity of Ti-6Al-4V Titanium Alloy: Microstructure Evolution and Constitutive Modelling [O] . Ahmed O. Mosleh, Anastasia V. Mikhaylovskaya, Anton D. Kotov, 2019

机译：Ti-6Al-4V钛合金的超塑性：组织演变和本构模型
7. Low-Temperature Coarsening and Plastic Flow Behavior of an Alpha/Beta Titanium Billet Material with an Ultrafine Microstructure [O] . G.A. Sargent, A.P. Zane, P.N. Fagin, 2008

机译：具有超细组织的α/β钛坯料坯料的低温粗化和塑料流动

Plastic Flow and Microstructure Evolution During Low Temperature Superplasticity of Ultrafine Ti-6AL-4V Sheet Material (Preprint)

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