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Softening Effect on Fracture Stress of Pure Copper Processed by Asynchronous Foil Rolling

机译：异步箔轧制对纯铜断裂应力的软化作用

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摘要

In order to study the size effect on the mechanical property of micro-scale metal, pure copper strips with thicknesses in the range of 20 µm to 600 µm were obtained through the asynchronous foil rolling technology. Progressive mechanical property tests indicated that the pure copper experiences softening effect at a micro-scale when the thickness is below 80 µm, which is contrary to the traditional work hardening theory. The related mechanisms were analyzed and discussed through the observation of microstructure and fracture morphology. The decrease of fracture stress with the decrease of thickness can be attributed to the decreased interfacial energy and dislocation density, which contributes to the release of the cumulative distortion energy and the tendency to soften. In addition, the distribution of misorientation angle and changed Taylor factor with the decrease of thickness are other important factors. The fracture morphology indicated a reduction in the number of micro-voids and the nature of fracture transformed from dimpled pattern to knife edge rupture with thickness. The traditional Hall-Petch relationship is no longer applicable due to the softening effect. A modified Hall-Petch relation considering the distribution of misorientation angle and Taylor factor was established, which provided a better relationship between flow stress and grain size.

机译：为了研究尺寸对微尺度金属力学性能的影响，通过异步箔轧制技术获得了厚度在20 µm至600 µm范围内的纯铜带。渐进的机械性能测试表明，当厚度小于80 µm时，纯铜会在微观尺度上发生软化作用，这与传统的加工硬化理论相反。通过观察组织和断裂形态，分析和讨论了相关机理。断裂应力随着厚度的减小而减小，可以归因于界面能和位错密度的降低，这有助于释放累积的变形能和软化的趋势。另外，取向差的分布和随着厚度的减小而改变的泰勒系数是其他重要因素。断裂形态表明，微孔的数量减少了，并且断裂的性质从凹陷的模式转变为随厚度的刀刃断裂。由于柔化效果，传统的霍尔-Petch关系不再适用。建立了一种修正的霍尔取向关系，考虑了取向差角和泰勒因子的分布，从而提供了更好的流变应力与晶粒尺寸之间的关系。

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期刊名称 Materials
作者
Jingqi Chen; Xianlei Hu; Xianghua Liu;
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作者单位

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年(卷),期 2019(12),14
年度 2019
页码 2319
总页数 13
原文格式 PDF
正文语种
中图分类外科学;
关键词
Cu foils cold rolling mechanical properties softening effect;

机译：铜箔;冷轧;机械性能;软化效果;

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1. 基于晶体塑性有限元模型的异步轧制纯铜箔变形行为晶粒统计效应 [J] . 陈守东, 刘相华, 刘立忠中国有色金属学报（英文版） . 2015,第010期
2. 基于晶体塑性有限元模型的异步轧制纯铜箔变形行为晶粒统计效应 [J] . 陈守东, 刘相华, 刘立忠中国有色金属学报：英文版 . 2015,第010期
3. Softening Effect on Fracture Stress of Pure Copper Processed by Asynchronous Foil Rolling [J] . Jingqi Chen, Xianlei Hu, Xianghua Liu Materials . 2019,第14期

机译：异步箔轧制对纯铜断裂应力的软化作用
4. Saturation controlled softening/hardening in pure aluminum processed by surface rotation rolling [J] . Yan Jiawei, Lai Qingquan, Wang Jeff, Scripta materialia . 2020,第期

机译：通过表面旋转轧制加工纯铝中饱和控制软化/硬化
5. Size Effect on Mechanical Properties and Texture of Pure Copper Foil by Cold Rolling [J] . Meng Song, Xianghua Liu, Lizhong Liu Materials . 2017,第5期

机译：尺寸对冷轧纯铜箔力学性能和织构的影响
6. AN APPLICATION OF IMAGE-PROCESSING TO STRESS MEASUREMENT BY COPPER PLATING FOIL (ON THE EFFECT OF FREQUENCY, STRESS RATIO AND STRESS WAVEFORM) [C] . Masakatsu Sugiura, Ryuji Ozeki, Masaichiro Seika International Conference on Experimental Mechanics . 2007

机译：镀铜箔的图像处理在压力测量中的应用（频率，应力比和应力波形的影响）
7. Modeling and Simulation of Viscoplasticity, Recrystallization, and Softening of Alloyed Steel during Hot Rolling Process [D] . Wang, Xin. 2018

机译：热轧过程中合金钢粘胶塑性，重结晶和软化的建模与仿真
8. Size Effect on Mechanical Properties and Texture of Pure Copper Foil by Cold Rolling [O] . Meng Song, Xianghua Liu, Lizhong Liu 2017

机译：尺寸对冷轧纯铜箔力学性能和织构的影响
9. Softening Effect on Fracture Stress of Pure Copper Processed by Asynchronous Foil Rolling [O] . Jingqi Chen, Xianlei Hu, Xianghua Liu 2019

机译：异步箔轧制加工纯铜断裂胁迫的软化效果
10. Microstructural Response of Pure Copper to Cryogenic Rolling (PREPRINT) [R] . Konkova, T., Korznikov, A., Mironov, S., 2010

机译：纯铜对低温轧制的微观结构响应（pREpRINT）

Softening Effect on Fracture Stress of Pure Copper Processed by Asynchronous Foil Rolling

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