Effect of Matrix Carbon Species on Interface Wetting Behavior of C/Cu Composites
[1]ZHU Qiang,ZHANG Dongsheng,FAN Yuheng,et al.Effect of Matrix Carbon Species on Interface Wetting Behavior of C/Cu Composites[J].Journal of Zhengzhou University (Engineering Science),2021,42(05):100-105.[doi:10.13705/j.issn.1671-6833.2021.05.013]
[1] 王海涛, 文攀龙, 梁磊, 等. 润湿性对AgSnO2TiO2触头材料性能的影响[J]. 电子元件与材料, 2016,35(7):80-83.
[2] ZHANG H, LUO L, YANG K, et al. Improved multi-scale wavelet in pantograph slide edge detection[J]. Optik-international journal for light and electron optics, 2014, 125(19):5681-5683.
[3] ZHOU W Y, RAN L P, PENG K, et al. Effect of carbon/carbon preform density on the microstructure and properties of Mo2C interlayer-modified carbon/carbon-copper composites for sliding contact materials[J]. Advanced engineering materials, 2016, 18(2):277-283.
[4] LIU X R, LIU Y B, SUN Y, et al. Fabrication of C/Cu composites by mechanical activation and spark plasma sintering[J]. Advanced materials research, 2012, 499:223-226.
[5] RAN X, LIU R H, ZHANG D D. Research on carbon fiber reinforced C/Cu composites[J]. Advanced materials research, 2012,472-475:843-846.
[6] NOWELL M M. Ion beam preparation of passivated copper integrated circuit structures for electron backscatter diffraction/orientation imaging microscopy analysis[J]. Journal of electronic materials, 2002, 31(1):23-32.
[7] 代坤,孔威威,展鹏飞,等.石墨烯/TPU/PDMS导电复合材料的拉伸敏感性能研究[J].郑州大学学报(工学版),2019,40(2):75-79.
[8] LI H J, WANG Y, FU Q G. Ablation resistance of carbides-coated C/C composites[J]. Surface engineering, 2017, 33(11):1-7.
[9] SEVENO D, BLAKE T D, DE CONINCK J. Young′s equation at the nanoscale[J]. Physical review letters, 2013, 111(9):096101.
[10] OKAMOTO H. Cu-Ti (copper-titanium)[J]. Journal of phase equilibria, 2002, 23(6):549-550.
[11] LIANG Y H, HAN Z W, LI X J, et al. Study on the reaction mechanism of self-propagating high-temperature synthesis of TiC in the Cu-Ti-C system[J]. Materials chemistry and physics, 2012, 137(1):200-206.
[12] WU H,YI M Z,GE Y C, et al. Microstructural development of a C/C-ZrC-Cu composite prepared by reactive melt infiltration with Zr/Cu powder mixture[J]. Materials characterization, 2018, 138:238-244.
[13] RAMBO C R, TRAVITZKY N, GREIL P. Conductive TiC/Ti-Cu/C composites fabricated by Ti-Cu alloy reactive infiltration into 3D-printed carbon performs[J]. Journal of composite materials, 2015, 49(16):1971-1976.
[14] EDIE D D, STONER E G. Effect of microstructure and shape on carbon fiber properties [M]//BUCKLEY J D, EDIE D D. Carbon-carbon materials and composites. Oxford: William andrew publishing, 1993: 41-69.
[15] SHARMA S, KUMAR C N S, KORVINK J G, et al. Evolution of glassy carbon microstructure: in situ transmission electron microscopy of the pyrolysis process[J]. Scientific reports, 2018, 8(1):1-12.
[16] TZENG S S, CHR Y G. Evolution of microstructure and properties of phenolic resin-based carbon/carbon composites during pyrolysis[J]. Materials chemistry and physics, 2002, 73(2/3):162-169.
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Last Update: 2021-10-11
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