Microstructural characteristics, electrical conductivity and mechanical properties of Cu matrix composites reinforced with dual-phase borides
The effect of boride content on the microstructure, electrical conductivity, and mechanical properties of TiB2-MB2/Cu composites (M = Cr, Mo, and Zr) was systematically investigated. The composites were prepared via spark plasma sintering. The results indicated that the double borides were uniformly...
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sg-ntu-dr.10356-1820062025-01-10T15:50:19Z Microstructural characteristics, electrical conductivity and mechanical properties of Cu matrix composites reinforced with dual-phase borides Li, Bo Gao, Yimin Li, Cong Cao, Zhen Yao, Xingjuan Wu, Da Bai, Pucun Chen, Zhong School of Materials Science and Engineering Engineering Copper matrix composites Dual-phase borides The effect of boride content on the microstructure, electrical conductivity, and mechanical properties of TiB2-MB2/Cu composites (M = Cr, Mo, and Zr) was systematically investigated. The composites were prepared via spark plasma sintering. The results indicated that the double borides were uniformly distributed in the Cu matrix without visible agglomeration, and excellent interfacial bonding was achieved between the borides and the Cu matrix. The electrical conductivity of the Cu composite with 5 wt% TiB2 and 15 wt% ZrB2 increased by 503 % compared to the Cu-20 wt% TiB2 composite. However, the hardness of the Cu composite with 5 wt% TiB2 and 15 wt% ZrB2 decreased by only 22 %. The wear resistance of the composites was significantly enhanced due to the synergistic effect of the dual-phase boride particles. The wear resistance of the Cu composite with 5 wt% TiB2 and 15 wt% ZrB2 was 4.12 times higher than that of the Cu-20 wt% TiB2 composite standard sample when tested under an applied load of 10 N. The worn surface of the composites exhibited minimal roughness. Therefore, the Cu matrix composites with dual-phase borides achieved desirable comprehensive performance in terms of electrical, mechanical, and tribological properties. Published version This work was funded by the National Natural Science Foundation of China (No. 52175184, 52305235, 52405213), the China Postdoctoral Science Foundation (No. 2023M742755), the Shaanxi Postdoctoral Science Foundation (No. 2023BSHEDZZ85), the Natural Science Basic Research Program of Shaanxi (No. 2024JC-YBQN-0502), the Zhejiang Provincial Natural Science Foundation of China (LQ24E020005). 2025-01-06T01:36:09Z 2025-01-06T01:36:09Z 2025 Journal Article Li, B., Gao, Y., Li, C., Cao, Z., Yao, X., Wu, D., Bai, P. & Chen, Z. (2025). Microstructural characteristics, electrical conductivity and mechanical properties of Cu matrix composites reinforced with dual-phase borides. Journal of Materials Research and Technology, 34, 1-14. https://dx.doi.org/10.1016/j.jmrt.2024.12.020 2238-7854 https://hdl.handle.net/10356/182006 10.1016/j.jmrt.2024.12.020 2-s2.0-85211037350 34 1 14 en Journal of Materials Research and Technology © 2024 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/bync-nd/4.0/). application/pdf |
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Engineering Copper matrix composites Dual-phase borides |
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Engineering Copper matrix composites Dual-phase borides Li, Bo Gao, Yimin Li, Cong Cao, Zhen Yao, Xingjuan Wu, Da Bai, Pucun Chen, Zhong Microstructural characteristics, electrical conductivity and mechanical properties of Cu matrix composites reinforced with dual-phase borides |
| description |
The effect of boride content on the microstructure, electrical conductivity, and mechanical properties of TiB2-MB2/Cu composites (M = Cr, Mo, and Zr) was systematically investigated. The composites were prepared via spark plasma sintering. The results indicated that the double borides were uniformly distributed in the Cu matrix without visible agglomeration, and excellent interfacial bonding was achieved between the borides and the Cu matrix. The electrical conductivity of the Cu composite with 5 wt% TiB2 and 15 wt% ZrB2 increased by 503 % compared to the Cu-20 wt% TiB2 composite. However, the hardness of the Cu composite with 5 wt% TiB2 and 15 wt% ZrB2 decreased by only 22 %. The wear resistance of the composites was significantly enhanced due to the synergistic effect of the dual-phase boride particles. The wear resistance of the Cu composite with 5 wt% TiB2 and 15 wt% ZrB2 was 4.12 times higher than that of the Cu-20 wt% TiB2 composite standard sample when tested under an applied load of 10 N. The worn surface of the composites exhibited minimal roughness. Therefore, the Cu matrix composites with dual-phase borides achieved desirable comprehensive performance in terms of electrical, mechanical, and tribological properties. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Li, Bo Gao, Yimin Li, Cong Cao, Zhen Yao, Xingjuan Wu, Da Bai, Pucun Chen, Zhong |
| format |
Article |
| author |
Li, Bo Gao, Yimin Li, Cong Cao, Zhen Yao, Xingjuan Wu, Da Bai, Pucun Chen, Zhong |
| author_sort |
Li, Bo |
| title |
Microstructural characteristics, electrical conductivity and mechanical properties of Cu matrix composites reinforced with dual-phase borides |
| title_short |
Microstructural characteristics, electrical conductivity and mechanical properties of Cu matrix composites reinforced with dual-phase borides |
| title_full |
Microstructural characteristics, electrical conductivity and mechanical properties of Cu matrix composites reinforced with dual-phase borides |
| title_fullStr |
Microstructural characteristics, electrical conductivity and mechanical properties of Cu matrix composites reinforced with dual-phase borides |
| title_full_unstemmed |
Microstructural characteristics, electrical conductivity and mechanical properties of Cu matrix composites reinforced with dual-phase borides |
| title_sort |
microstructural characteristics, electrical conductivity and mechanical properties of cu matrix composites reinforced with dual-phase borides |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182006 |
| _version_ |
1821237147312586752 |