Electric Current Dependence on Superplastic Tensile Flow in Tetragonal Zirconia Polycrystal Under a DC Field

EngRN: Engineering Design Process (Topic) Pub Date : 2020-06-18 DOI:10.2139/ssrn.3622581
Y. Sasaki, K. Morita, Takahisa Yamamoto, K. Soga, H. Masuda, H. Yoshida
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Abstract

Electric DC current dependence on the superplastic flow in densified, fine-grained tetragonal ZrO2 polycrystal was systematically investigated. An optimal current density for large tensile ductility existed; the maximum elongation of 135% was achieved under the current density of 250 mA∙mm-2 at a furnace temperature of 1000 oC and an initial strain rate of 1×10-3 s-1. Application of DC current decreased the flow stress, while that simultaneously accelerated the grain growth in tetragonal ZrO2 polycrystal. The reduced flow stress and improved ductility can be explained not only by Joule heating but also by enhanced atomic diffusion or accelerated grain boundary sliding.
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直流电场下四方氧化锆多晶超塑性拉伸流动的电流依赖性
系统地研究了直流电流对致密细晶方形ZrO2多晶超塑性流动的影响。存在大拉伸延展性的最佳电流密度;当电流密度为250 mA∙mm-2,炉温为1000℃,初始应变速率为1×10-3 s-1时,拉伸伸长率达到135%。直流电流的施加降低了流动应力,同时加速了方形ZrO2多晶的晶粒生长。流动应力的降低和延展性的提高不仅可以用焦耳加热来解释,还可以用原子扩散的增强或晶界滑动的加速来解释。
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EngRN: Engineering Design Process (Topic)
EngRN: Engineering Design Process (Topic)
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