Journal
RSC ADVANCES
Volume 8, Issue 54, Pages 30777-30782Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c8ra06020g
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Funding
- National Key Research and Development Program of China [2017YFA0403804]
- National Natural Science Foundation of China [51525401, 51601028, 51774065, 51690163]
- Dalian Support Plan for Innovation of High-level Talents (Top and Leading Talents) [2015R013]
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Due to the contradiction between mechanical properties and electrical conductivity, it is not easy to fabricate materials with both high strength and good wear resistance with favourable electrical conductivity for the application of electrical materials. In addition, strength and wear resistance do not always present a uniform growth trend at the same time. Herein, a novel copper matrix composite reinforced by in situ synthesized ZrB2 microparticles and nano Cu5Zr precipitates is successfully prepared by a casting method and sequential heat treatments. The Cu/dual-scale particulate composite possesses a desired trade-off of strength, electrical conductivity and wear resistance. ZrB2 microparticles form from Zr and B elements in copper melts, and nanoscale Cu5Zr precipitates form in the matrix after solid solution and aging treatments. The ZrB2 microparticles, nano Cu5Zr precipitates, and well-bonded interfaces contribute to a high tensile strength of 591MPa and superior wear resistance, with a relative electrical conductivity of 83.7% International Annealed Copper Standard.
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