On flow stress anisotropy in Ti-6Al-4V alloy sheet during superplastic deformation

Sheikh-Ali A

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On flow stress anisotropy in Ti-6Al-4V alloy sheet during superplastic deformation

机译：Ti-6Al-4V合金板超塑性变形过程中的流变应力各向异性

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The anisotropy of flow stress in a cold rolled sheet of Ti-6Al-4V alloy has been observed during superplastic deformation at 850 degrees C. At this temperature, the alloy has duplex microstructure with almost equiaxed grains of the alpha and beta phases. The maximum value of flow stress has been established for the rolling direction and minimum-for the transverse one. Also, the anisotropy of crystallographic texture weakening in the alpha phase has been observed. However, it has been demonstrated that texture in the alpha phase cannot be responsible for the observed anisotropic behavior. Texture in the beta phase is the suggested reason for the flow-stress anisotropy during superplastic deformation.

机译：在850摄氏度的超塑性变形过程中，观察到了Ti-6Al-4V合金冷轧薄板中流动应力的各向异性。在此温度下，该合金具有双相微观结构，具有几乎等轴的α相和β相晶粒。已经确定了轧制方向的最大流应力值，而横向方向的最小流应力值。另外，已经观察到α相中结晶织构的各向异性减弱。然而，已经证明α相中的织构不能引起观察到的各向异性行为。 β相中的织构是超塑性变形过程中流动应力各向异性的暗示原因。

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《Journal of Materials Science》 |2007年第10期|共6页
作者
Sheikh-Ali A;
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正文语种 eng
中图分类工程材料学;
关键词
MECHANICAL ANISOTROPY; TITANIUM-ALLOY; STRAIN RATE; TEXTURE; TEMPERATURE;

机译：机械各向异性;钛合金;应变率;纹理;温度;

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专利

1. On flow stress anisotropy in Ti-6Al-4V alloy sheet during superplastic deformation [J] . Sheikh-Ali A Journal of Materials Science . 2007,第10期

机译：Ti-6Al-4V合金板超塑性变形过程中的流变应力各向异性
2. Effect of texture and mechanical anisotropy on flow behaviour in Ti-6Al-4V alloy under superplastic forming conditions [J] . L. da Silva, G. Sivaswamy, L. Sun, Materials Science and Engineering . 2021,第Jula5期

机译：高效形成条件下Ti-6Al-4V合金流动性能和机械各向异性的影响
3. Mechanical anisotropy and stress- strain rate characteristics in superplastic deformation of titanium alloys [J] . B.Bai, H. S. Yang, N. P. Chen Materials Science and Technology: MST: A publication of the Institute of Metals . 2001,第3期

机译：钛合金超塑性变形的力学各向异性和应力应变率特征
4. Transverse superplastic deformation of laser welded Ti-6Al-4V sheet [C] . Donghai Cheng, Yeping Zhou, Qiang Wei, International Conference on Advanced Engineering Materials and Technology . 2011

机译：激光焊接Ti-6AL-4V板横向超塑性变形
5. Modeling of rate dependent deformation of metals and alloys using the viscoplasticity theory based on overstress: Behavior of modified 9chromium-1molybdenum steel at 538 degrees celsius and deformation induced anisotropy at finite strains. [D] . Majors, Patrick Scott. 1993

机译：使用基于超应力的粘塑性理论对金属和合金的速率依赖性变形进行建模：改性的9铬1钼钢在538摄氏度下的行为以及在有限应变下的变形引起的各向异性。
6. Low-Temperature Superplasticity and Deformation Mechanism of Ti-6Al-4V Alloy [O] . Ge Zhou, Lijia Chen, Lirong Liu, 2018

机译：Ti-6Al-4V合金的低温超塑性和变形机理
7. Anisotropy in flow and microstructural evolution during superplastic deformation of a layered-microstructured AA8090 Al–Li alloy. [O] . FAN W, KASHYAP BP, CHATURVEDI MC 2003

机译：层状微结构AA8090 Al–Li合金超塑性变形过程中的流动各向异性和微结构演变。
8. Deformation of Electron Beam Welded Ti-6Al-4V Alloy Sheet under Superplastic Conditions [R] . Partridge, P. G., Dunford, D. V. 1988

机译：超塑性条件下电子束焊接Ti-6al-4V合金板材的变形

On flow stress anisotropy in Ti-6Al-4V alloy sheet during superplastic deformation

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