Effect of interface bonding and properties of graphite/copper composites by microwave pressure sintering

Effect of interface bonding and properties of graphite/copper composites by microwave pressure sintering

The graphite/copper composites were prepared by different sintering processes. The effects of conventional sintering, microwave sintering, and microwave pressure sintering on the structure and properties of the composites was investigated. The results demonstrate that the microwave electromagnetic f...

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Published in:Journal of alloys and compounds Vol. 976; p. 173009
Main Authors: Zuo, Changhao, Xu, Lei, Sun, Yongfen, Xia, Huanpei, Tang, Zhimeng, Zheng, Guo, Han, Zhaohui
Format: Journal Article
Language:English
Published: Elsevier B.V 05-03-2024
Subjects:
Graphite/copper composites
Interface
Microwave sintering
Stretching
Thermal conductivity
Graphite/copper composites
Thermal conductivity
Microwave sintering
Interface
Stretching
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Abstract The graphite/copper composites were prepared by different sintering processes. The effects of conventional sintering, microwave sintering, and microwave pressure sintering on the structure and properties of the composites was investigated. The results demonstrate that the microwave electromagnetic field can promote interfacial bonding of graphite and copper matrices, and pressure sintering may further promote interfacial bonding of the copper matrix and grain refinement, thereby improving the overall application performance of the composites. At a sintering temperature of 950 ℃, a holding time of 1 h, and a graphite volume fraction of 50 vol%, the physical and mechanical properties of the composites prepared by microwave pressure sintering were optimal when the pressure was 350 kPa. The internal thermal conductivity of the cross plane was 681.0 (W·m−1·K−1), the tensile strength was 32.57 MPa, and the elongation at break was 18.46%. It is proved that microwave pressure sintering is beneficial to improve the comprehensive properties of composites, and provides a new research idea for the preparation of graphite/copper composites with high thermal conductivity. •Microwave pressure sintering was used to prepare graphite/copper composites.•Microwave electromagnetic field and pressure sintering were used to improve the microstructures of the composites.•Investigated the influence of different processes on tensile properties of composites.•The feasibility of boosting graphite/copper composite thermal conductivity for improved heat dissipation is confirmed.
AbstractList The graphite/copper composites were prepared by different sintering processes. The effects of conventional sintering, microwave sintering, and microwave pressure sintering on the structure and properties of the composites was investigated. The results demonstrate that the microwave electromagnetic field can promote interfacial bonding of graphite and copper matrices, and pressure sintering may further promote interfacial bonding of the copper matrix and grain refinement, thereby improving the overall application performance of the composites. At a sintering temperature of 950 ℃, a holding time of 1 h, and a graphite volume fraction of 50 vol%, the physical and mechanical properties of the composites prepared by microwave pressure sintering were optimal when the pressure was 350 kPa. The internal thermal conductivity of the cross plane was 681.0 (W·m−1·K−1), the tensile strength was 32.57 MPa, and the elongation at break was 18.46%. It is proved that microwave pressure sintering is beneficial to improve the comprehensive properties of composites, and provides a new research idea for the preparation of graphite/copper composites with high thermal conductivity. •Microwave pressure sintering was used to prepare graphite/copper composites.•Microwave electromagnetic field and pressure sintering were used to improve the microstructures of the composites.•Investigated the influence of different processes on tensile properties of composites.•The feasibility of boosting graphite/copper composite thermal conductivity for improved heat dissipation is confirmed.
ArticleNumber 173009
Author Xu, Lei
Sun, Yongfen
Tang, Zhimeng
Zuo, Changhao
Xia, Huanpei
Zheng, Guo
Han, Zhaohui
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Keywords Graphite/copper composites
Thermal conductivity
Microwave sintering
Interface
Stretching
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SSID ssj0001931
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Snippet The graphite/copper composites were prepared by different sintering processes. The effects of conventional sintering, microwave sintering, and microwave...
SourceID crossref
elsevier
SourceType Aggregation Database
Publisher
StartPage 173009
SubjectTerms Graphite/copper composites
Interface
Microwave sintering
Stretching
Thermal conductivity
Title Effect of interface bonding and properties of graphite/copper composites by microwave pressure sintering
URI https://dx.doi.org/10.1016/j.jallcom.2023.173009
Volume 976
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