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R. Markandeya, S. Nagarjuna & D.S. Sarma. (2004) Precipitation hardening of Cu – Ti – Zr alloys. Materials Science and Technology 20:7, pages 849-858.
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Articles from other publishers (15)
Kuo Yang, Yihan Wang, Mingxing Guo, Hu Wang, Yongda Mo, Xueguang Dong & Huafen Lou. (2023) Recent development of advanced precipitation-strengthened Cu alloys with high strength and conductivity: A review. Progress in Materials Science 138, pages 101141.
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Yilei Fu, Guoliang Xie, Fan Zhao, Jinfeng Wan, Xianghao Meng, Xiao Liu, Rui Wang & Xinhua Liu. (2022) Precipitation behaviors and property variations of Cu-3.0 wt% Ti fabricated by a novel short-processing non-vacuum heating-cooling combined mold continuous casting. Journal of Alloys and Compounds 921, pages 166059.
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Fei Cao, Xingde Zhang, Pengtao Cai, Yihui Jiang, Fan Gao & Shuhua Liang. (2022) Effect of Reaction Temperature and Heat Treatment Time on Electrical and Mechanical Performance of TiB2 Particles and TiB Whiskers Reinforced Copper Matrix Composites. Metals 12:4, pages 592.
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Satoshi Semboshi, Yasuyuki Kaneno, Takayuki Takasugi & Naoya Masahashi. (2020) Suppression of Discontinuous Precipitation in Cu-Ti Alloys by Aging in a Hydrogen Atmosphere. Metallurgical and Materials Transactions A 51:7, pages 3704-3712.
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Jelena Stašić & Dušan Božić. (2020)
The effect of in-situ formed TiB
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J. Stašić & D. Božić. (2018) Obtaining of reinforced Cu-Ti, Cu-Ti-TiB2 foils through green compact laser sintering. Journal of Alloys and Compounds 762, pages 231-236.
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Gilles Demange, Sylvain Dépinoy, Laurence Lunéville, David Simeone & Vassilis Pontikis. (2018) Irradiation-based design of mechanically resistant microstructures tuned via multiscale phase-field modeling. Scientific Reports 8:1.
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Huan Wei, Yanchao Cui, Huiqi Cui, Yinghui Wei & Lifeng Hou. (2017) Effects of multiple trace alloying elements on the microstructure and properties of Cu-4 wt% Ti alloys. Materials Science and Engineering: A 707, pages 392-398.
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D. Božić, J. Stašić, J. Ružić, M. Vilotijević & V. Rajković. (2011) Synthesis and properties of a Cu–Ti–TiB2 composite hardened by multiple mechanisms. Materials Science and Engineering: A 528:28, pages 8139-8144.
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Satoshi Semboshi, Tomoya Nishida & Hiroshi Numakura. (2009) Microstructure and mechanical properties of Cu–3at.% Ti alloy aged in a hydrogen atmosphere. Materials Science and Engineering: A 517:1-2, pages 105-113.
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R. Markandeya, S. Nagarjuna & D.S. Sarma. (2004) Precipitation hardening of Cu–Ti–Cr alloys. Materials Science and Engineering: A 371:1-2, pages 291-305.
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S. J. Dong, Y. Zhou, B. H. Chang & Y. W. Shi. (2002) Formation of a TiB2-reinforced copper-based composite by mechanical alloying and hot pressing. Metallurgical and Materials Transactions A 33:4, pages 1275-1280.
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D. Božić, M. Mitkov & M.T. Jovanović. (1994) Structure and microhardness of precipitation/dispersion hardened CuTiB and CuTiSi alloys. Materials Characterization 32:2, pages 97-103.
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Yilei Fu, Guoliang Xie, Fan Zhao, Jinfeng Wan, Xianghao Meng, Xiao Liu, Rui Wang & Xinhua Liu. (2022) Precipitation Behaviors and Property Variations of Cu-3.0 Wt% Ti Fabricated by a Novel Short-Processing Non-Vacuum Heating-Cooling Combined Mold Continuous Casting. SSRN Electronic Journal.
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Yilei Fu, Guoliang Xie, Fan Zhao, Jinfeng Wan, Xianghao Meng, Xiao Liu, Rui Wang & Xinhua Liu. (2021) Precipitation Behaviors and Property Variations of Cu-3.0 Wt% Ti Fabricated by a Novel Short-Processing Non-Vacuum Heating-Cooling Combined Mold Continuous Casting. SSRN Electronic Journal.
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