Retardation of grain growth and cavitation by an electric field during superplastic deformation of ultrafine-grained 3Y-TZP at 1,450–1,600 °C

Di Yang; Hans Conrad

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Retardation of grain growth and cavitation by an electric field during superplastic deformation of ultrafine-grained 3Y-TZP at 1,450–1,600 °C

机译：超细晶粒3Y-TZP在1,450–1,600°C的超塑性变形过程中，通过电场抑制晶粒的生长和空化

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The influence of a continuous dc electric field applied orthogonal to the tensile direction on the flow stress, grain growth, and cavitation during superplastic deformation (SPD) of ultrafine-grained 3Y-TZP at 1,450–1,600 °C was determined. The field gave a significant reduction in the level of the stress-strain curve, and reduced grain growth and cavitation. The decrease in flow stress by the field was attributed mainly to the retardation of grain growth. The decrease in cavitation correlated with the retardation of grain growth and was attributed largely to the reduction in flow stress by the field.

机译：确定了在1,450–1,600°C下超细晶粒3Y-TZP在超塑性变形（SPD）期间，垂直于拉伸方向施加的连续直流电场对流动应力，晶粒生长和空化的影响。该场显着降低了应力-应变曲线的水平，并减少了晶粒的生长和空化。磁场引起的流变应力的减小主要归因于晶粒生长的延迟。空化的减少与晶粒生长的延迟有关，并且很大程度上归因于磁场对流应力的减小。

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《Journal of Materials Science》 |2008年第13期|p.4475-4482|共8页
作者
Di Yang; Hans Conrad;
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1. Retardation of grain growth and cavitation by an electric field during superplastic deformation of ultrafine-grained 3Y-TZP at 1,450-1,600 degrees C [J] . Yang D, Conrad H Journal of Materials Science . 2008,第13期

机译：超细晶粒3Y-TZP在1,450-1,600摄氏度下超塑性变形过程中电场对晶粒生长和空化的抑制作用
2. Effect of an Alternating Current Electric Field on the Plastic Deformation of Ultrafine-Grained 3Y-TZP at 1400 °C and 1500 °C [J] . Hans Conrad, Di Yang Metallurgical and Materials Transactions A . 2008,第2期

机译：交流电场对1400°C和1500°C超细晶3Y-TZP塑性变形的影响
3. INFLUENCE OF AN ELECTRIC FIELD ON THE SUPERPLASTIC DEFORMATION OF 3Y-TZP [J] . Di Yang, H. Conrad Scripta materialia . 1997,第12期

机译：电场对3Y-TZP超塑性变形的影响
4. Description of the superplastic flow process by deformation mechanism maps in ultrafine-grained materials [C] . Megumi Kawasaki, Terence G. Langdon International confernce on superplasticity in advanced materials . 2016

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5. Static, Cyclic Deformation Responses and Related Micromechanisms of Ni-Carbonyl CVD Material of Bimodal Grain Structures: Columnar Grains with Ultrafine and Nano-Twins and Ultrafine-Grained Matrix [D] . ?Fu, Shaohua 2020

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6. Room-Temperature Superplasticity in an Ultrafine-Grained Magnesium Alloy [O] . Kaveh Edalati, Takahiro Masuda, Makoto Arita, -1

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7. Superplasticity deformation behavior change of pure 3Y-TZP by grain growth. [O] . Takashi SATO, Junichi MATSUSHITA, Eiichi SATO, 2000

机译：谷物生长的纯3Y-TZP的超塑性变形行为变形。

Retardation of grain growth and cavitation by an electric field during superplastic deformation of ultrafine-grained 3Y-TZP at 1,450–1,600 °C

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