Microstructure, capillary performance and gas permeability of biporous copper fabricated by tape casting

Biporous copper was successfully fabricated by tape casting process using 0–1.5wt.% of C7H10N2O2S as the foaming agent. The influences of the foaming agent content on the pore structure, capillary performance and gas permeability were investigated. The results indicate that with increasing content o...

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Published inPowder technology Vol. 256; pp. 182 - 187
Main Authors Ru, Jinming, Kong, Bo, Zhu, Hanxing, Shi, Zhongliang, Zhang, Di, Fan, Tongxiang
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.04.2014
Elsevier
Subjects
Applied sciences
Biporous copper
Capillary performance
Chemical engineering
Exact sciences and technology
Gas permeability
Miscellaneous
Porosity
Solid-solid systems
Tape casting
Biporous copper
Gas permeability
Capillary performance
Porosity
Tape casting
Casting
Pumping
Tape
Pore structure
Microstructure
Foaming agent
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Abstract Biporous copper was successfully fabricated by tape casting process using 0–1.5wt.% of C7H10N2O2S as the foaming agent. The influences of the foaming agent content on the pore structure, capillary performance and gas permeability were investigated. The results indicate that with increasing content of the foaming agent, the pumping rate increases, while the porosity and gas permeability fluctuate. It is suggested that biporous copper prepared by tape casting could be a good choice as the wick structure for heat pipe. The effects of foaming agent on pore structure, capillary performance and gas permeability were investigated. It is found that with increasing content of the foaming agent, the pumping rate increases, while the porosity and gas permeability fluctuate. Furthermore, biporous structure enhanced capillary performance and gas permeability. [Display omitted] •Biporous copper could be obtained by tape casting process with foaming agent.•Capillary performance was assessed by the pumping rate per unit mass.•Biporous copper possessed preferable pumping rate and gas permeability by contrast.
AbstractList Biporous copper was successfully fabricated by tape casting process using 0–1.5wt.% of C7H10N2O2S as the foaming agent. The influences of the foaming agent content on the pore structure, capillary performance and gas permeability were investigated. The results indicate that with increasing content of the foaming agent, the pumping rate increases, while the porosity and gas permeability fluctuate. It is suggested that biporous copper prepared by tape casting could be a good choice as the wick structure for heat pipe. The effects of foaming agent on pore structure, capillary performance and gas permeability were investigated. It is found that with increasing content of the foaming agent, the pumping rate increases, while the porosity and gas permeability fluctuate. Furthermore, biporous structure enhanced capillary performance and gas permeability. [Display omitted] •Biporous copper could be obtained by tape casting process with foaming agent.•Capillary performance was assessed by the pumping rate per unit mass.•Biporous copper possessed preferable pumping rate and gas permeability by contrast.
Author Ru, Jinming
Shi, Zhongliang
Kong, Bo
Fan, Tongxiang
Zhu, Hanxing
Zhang, Di
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  organization: State Key Lab of Metal Matrix Composites, Shanghai Jiaotong University, Shanghai 200240, PR China
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  email: txfan@sjtu.edu.cn
  organization: State Key Lab of Metal Matrix Composites, Shanghai Jiaotong University, Shanghai 200240, PR China
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Keywords Biporous copper
Gas permeability
Capillary performance
Porosity
Tape casting
Casting
Pumping
Tape
Pore structure
Microstructure
Foaming agent
Language English
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Snippet Biporous copper was successfully fabricated by tape casting process using 0–1.5wt.% of C7H10N2O2S as the foaming agent. The influences of the foaming agent...
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SubjectTerms Applied sciences
Biporous copper
Capillary performance
Chemical engineering
Exact sciences and technology
Gas permeability
Miscellaneous
Porosity
Solid-solid systems
Tape casting
Title Microstructure, capillary performance and gas permeability of biporous copper fabricated by tape casting
URI https://dx.doi.org/10.1016/j.powtec.2014.02.009
Volume 256
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