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Effect of dc on the Formability of Ti–6Al–4V

成形性 材料科学 电流(流体) 电流 冶金 电阻式触摸屏 复合材料 电阻率和电导率 焦耳加热 钛合金 电流 极限抗拉强度 变形(气象学) 电气工程 工程类 合金
作者
Carl D. Ross,Thomas J. Kronenberger,John T. Roth
出处
期刊:Journal of Engineering Materials and Technology-transactions of The Asme [American Society of Mechanical Engineers]
卷期号:131 (3) 被引量:84
标识
DOI:10.1115/1.3078307
摘要

Recent research has demonstrated that the mechanical properties of metals are altered when an electrical current is passed through the material. These studies suggest that titanium alloys, due to their low formability and need for dramatic improvement, should be subjected to additional study. The research presented herein further investigates the use of electricity to aid in the bulk deformation of Ti–6Al–4V under tensile and compressive loads. Extensive testing is presented, which documents the changes that occur in the formability of titanium due to the presence of an electrical current at varying current densities. Using carefully designed experiments, this study also characterizes and isolates the effect of resistive heating from the overall effect due to the electrical flow. This study clearly indicates that electrical flow affects the material beyond that which can be explained through resistive heating. The results demonstrate that an applied electrical current within the material during mechanical loading can greatly decrease the force needed to deform the titanium while also dramatically enhancing the degree to which it can be worked without fracturing. Isothermal testing further demonstrates that the changes are significantly beyond that which can be accounted for due to increases in the titanium’s temperature. The results are also supported by data from tests using pulsed and discontinuously applied current. Furthermore, current densities are identified that cause an enhanced formability behavior to occur. Overall, this work fully demonstrates that an electrical current can be used to significantly improve the formability of Ti–6Al–4V and that these improvements far exceed that which can be explained by resistive heating.

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