Microstructure transformation of Αlpha-titanium after mechanical and laser forming

WIT transactions on engineering sciences Pub Date : 2017-06-21 DOI:10.2495/MC170221

H. Fidder, V. Ocelík, J. Hosson

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Abstract

The effects of microstructure transformation during forming processes viz. Mechanical (contact process via tool and die), laser (contactless process via CO2 laser defocused beam) and a combined process consisting of laser forming followed by mechanical forming was analysed before and after each process. Plastic flow during the deformation is strongly influenced by anisotropy and the work hardening rate, which is due to the limited number of slip planes in a hexagonal close-packed material. Commercially pure titanium can exhibit dominant twinning systems during deformation when either tensile or compression is introduced. Electron backscatter diffraction (EBSD) results show multiple dominate pyramidal slip behaviours due to the lattice rotation when comparing the before and after deformation processes. The Schmid factor and twinning parent/daughter ratios for each individual grain after each forming process were also evaluated. Our findings show twin nucleation and twin growth also contribute a major role when observing the nature of the microstructure for each process. contribute a major role when observing the nature of the microstructure for each process.

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Αlpha-titanium机械和激光成形后的组织变化

分析了成形过程中微观结构转变的影响，即机械(通过工具和模具接触)、激光(通过CO2激光散焦光束无接触)和激光成形后机械成形的组合工艺。变形过程中的塑性流动受到各向异性和加工硬化率的强烈影响，这是由于六边形密排材料中滑移面数量有限造成的。当引入拉伸或压缩时，商业纯钛在变形过程中可以表现出优势的孪晶系统。电子背散射衍射(EBSD)结果表明，变形前后由于晶格旋转导致的多重锥体滑移行为占主导地位。并对各成形过程后各粒的施密德因子和孪生亲本比进行了评价。我们的研究结果表明，在观察每个过程的微观结构性质时，孪核和孪晶生长也起着重要作用。在观察每个工艺的微观结构时发挥主要作用。

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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来源期刊

WIT transactions on engineering sciences

CiteScore

1.20

自引率

0.00%

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