[1]冼爱平, 朱耀宵.Cu-Cr触头合金制备技术的发展[J][J].金属学报, 2003, 39:-225[2].Characterization of nanostructured CueC bulk composites prepared by high-energy mechanical alloying [J[J]., 2016, (177):1-7[3] Z.Q. Cao, C.W. Li, Z.Q. Jia, Y. Wang. High temperature corrosion of nanocrystalline three-phase Cu-20Ag-20Cr bulk alloy [J] . Corrosion Science, 2016, (110): 167–173.[4] Zheng Li, Miao Zuo, Yetao Jiang, Xing Tang, Xianhai Zeng, Yong Sun, Tingzhou Lei, LuLin.Stable and efficient CuCr catalyst for the solvent-free hydrogenation of biomass derived ethyl levulinate to ?-valerolactone as potential biofuel candidate [J]. Fuel, 2016, (175) : 232–239.[5] A.Bachmaier, M. Pfaff, M. Stolpe, H. Aboulfadl, C. Motz. Phase separation of a supersaturated nanocrystalline Cu–Co alloy and its influence on thermal stability [J]. Acta Materialia, 2015, (96) :269–283.[6] K.v. Klinski-Wetzel, C. Kowanda, M. Heilmaier, F.E.H. Mueller. The influence of microstructural features on the electrical conductivity of solid phase sintered CuCr composites [J]. Journal of Alloys and Compounds, 2015, (631): 237–247.[7] Qiang Fang, Zhixin Kang.An investigation on morphology and structure of Cu–Cr alloy powders prepared by mechanical milling and alloying [J]. Powder Technology, 2015, (270): 104–111.[8] S.V. Dobatkin, J. Gubicza, D.V. Shangina, N.R. Bochvar, N.Y. Tabachkova. High strength and good electrical conductivity in Cu–Cr alloys processed by severe plastic deformation [J]. Materials Letters, 2015, (153): 5–9.[9] Qing Zhao, Zhongbao Shao, Chengjun Liu, Maofa Jiang, Xuetian Li, Ron Zevenhoven.Henrik Saxén. Preparation of Cu–Cr alloy powder by mechanical alloying [J]. Journal of Alloys and Compounds, 2014, (607): 118–124.[10]Yu-Quan Ma, Hong-ju Lin, Dong-dong Song.Microstructure evolution and thermal physical properties of Cu Cr alloy after high pressure treatment[J].Rare Met., 2014, 33(3):293-298 |