Strengthening of lotus-type porous copper by ECAE process

J. Lobos; S. Suzuki; H. Utsunomiya; H. Nakajima; M. A. Rodrigez-Perez

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Strengthening of lotus-type porous copper by ECAE process

机译：ECAE工艺增强莲花型多孔铜

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Lotus-type porous copper with directional cylindrical pores was fabricated by unidirectional solidification in a pressurized hydrogen atmosphere. Improvements in microstructure and mechanical properties of the lotus-type porous copper by equal-channel angular extrusion (ECAE) were investigated using a die with a channel angle of 150°. The porosity decreases with increasing pass number, and decreases from 46% to 30% by four passes. It means that pore closure in the ECAE process is not significant. Both the specific compressive yield strength σ_(0.2%)~* and the Vickers hardness HV of the lotus copper increase with increasing pass number of ECAE. The ECAE processed porous copper shows improved σ_(0.2%)~* and HV comparable to those of the extruded nonporous copper. It is suggested that ECAE is a promising method to strengthen porous metals without significant pore closure.

机译：通过在加压氢气气氛中进行单向凝固，制造出具有方向性圆柱孔的莲花型多孔铜。使用通道角度为150°的模具研究了通过等通道角挤压（ECAE）改善莲花型多孔铜的微观结构和力学性能。孔隙率随着通过次数的增加而降低，并通过四次从46％降低到30％。这意味着ECAE过程中的孔关闭并不重要。随着ECAE通过次数的增加，莲花铜的比抗压屈服强度σ_（0.2％）〜*和维氏硬度HV均增加。经ECAE处理的多孔铜的σ_（0.2％）〜*和HV均与挤压无孔铜相比有所提高。有人认为，ECAE是一种在没有明显孔闭的情况下增强多孔金属的有前途的方法。

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《Journal of Materials Processing Technology》 |2012年第10期|共5页
作者
J. Lobos; S. Suzuki; H. Utsunomiya; H. Nakajima; M. A. Rodrigez-Perez;
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正文语种 eng
中图分类一般性问题;工程材料学;
关键词
Lotus-type porous copper; Equal-channel angular extrusion; Porous metals; Vickers hardness; Yield strength;

机译：莲花型多孔铜;等径角挤压;多孔金属;维氏硬度;屈服强度;

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专利

1. Strengthening of lotus-type porous copper by ECAE process [J] . J. Lobos, S. Suzuki, H. Utsunomiya, Journal of Materials Processing Technology . 2012,第10期

机译：ECAE工艺增强莲花型多孔铜
2. Improvement of Strength of Lotus-type Porous Aluminum through ECAE Process [J] . Tae Bum Kim, Masakazu Tane, Shinsuke Suzuki, Materials science forum . 2011,第期

机译：通过ECAE工艺提高莲花型多孔铝的强度
3. Equal-channel Angular Extrusion Process Of Lotus-type Porous Copper [J] . S, Suzuki, H, Materials Science and Engineering . 2008,第1a2期

机译：莲花型多孔铜的等通道角挤压工艺
4. Structure Change and Improvement of the Mechanical Properties of Lotus-type Porous Copper by ECAE Process [C] . Juan Lobos, Shinsuke Suzuki, Hiroshi Utsunomiya, Eco-materials processing and design X . 2009

机译：ECAE工艺改变莲花型多孔铜的结构及其力学性能
5. Effects of thermal and mechanical processing on microstructures and desired properties of particle-strengthened copper-chromium-niobium alloys. [D] . Anderson, Kenneth Reed. 1999

机译：热处理和机械加工对颗粒增强的铜铬铌合金微结构和所需性能的影响。
6. Nanostructures formed by displacement of porous silicon with copper: from nanoparticles to porous membranes [O] . Hanna Bandarenka, Sergey Redko, Aleksandr Smirnov, 2012

机译：通过用铜置换多孔硅形成的纳米结构：从纳米颗粒到多孔膜
7. Compressive behaviours of lotus-type porous copper fabricated by Gasar process [O] . Li Zaijiu, Yang Tianwu, Jin Qinglin, 2012

机译：Gasar法制备的莲花型多孔铜的压缩行为

Strengthening of lotus-type porous copper by ECAE process

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