KONG De-jun,ZHOU Chao-zheng.The surface and interface properties of VC coating prepared by TD process [J].Journal of Advanced Manufacturing Systems,2011,10(1):183-190.
[2]
孔德军,周朝政.TD处理制备碳化钒(VC)涂层的摩擦磨损性能[J].摩擦学学报,2011,31 (4):335-339.KONG De-jun,ZHOU Chao-zheng.The friction and wear properties of VC coating prepared by a TD process [J].Tribology,2011,31 (4):335-339.
[3]
YANG M B,TANG L W,YANG H,et al.Microstructure and properties of surface coating for Cr12MoV steel treated by TD salt-bath vanadizing process [J].Key Engineering Materials,2008,373-374 (1):196-199.
[4]
WANG Hong-fu,WANG Hua-chang,PAN Cheng-gang.Vanadium carbide coating growth on die steel substrate in borax salt bath [J].Journal of Wuhan University of Technology:Materials Science Edition,2010,25(4):599-602.
[5]
龚伟,王一三,王静,等.原位烧结合成(Ti,V)C/Fe复合材料的组织及形成机理[J].材料热处理学报,2008,29(2):31-35.GONG Wei,WANG Yi-san,WANG Jing,et al.Microstructure and forming mechanism of (Ti,V)C/Fe composite synthesized by in situ sintering [J].Transactions of Materials and Heat Treatment,2008,29(2):31-35.
[6]
刘慧敏,宋振东,许萍,等.TiC/7075铝基复合材料的磨损实验研究[J].材料工程,2011,(7):66-69,74.LIU Hui-min,SONG Zhen-dong,XU Ping,et al.Experimental study of the wear resistance of TiC/7075 Al matrix composite [J].Journal of Materials Engineering,2011,(7):66-69,74.
[7]
CHEN F S,WANG K L.The kinetics and mechanism of multi-component diffusion on AISI 1045 steel [J].Surface Coatings Technology,1999,115 (2-3):239-248.
[8]
KWOK C K,THOMAS G..Microstructural influence on abrasive wear resistance of high strength,high toughness medium carbon steels.Proceedings of International Conference on Wear of Materials.New York:Lawrence Berkeley Laboratory,University of Califonia,1983.140-147.
[9]
孙德明,许崇海,杨刘波,等.Cr3C2与(W,Ti)C增强氧化铝陶瓷的摩擦磨损性能[J].材料工程,2012,(2):16-19.SUN De-ming,XU Chong-hai,YANG Liu-bo,et al.Friction and wear behavior of Al2O3 ceramic composite materials reinforced with Cr3C2 and (W,Ti)C [J].Journal of Materials Engineering,2012,(2):16-19.
[10]
AGHAIE-KHAFRI M,FAZLALIPOUR F.Vanadium carbide coatings on die steel deposited by the thermo-reactive diffusion technique [J].Journal of Physics and Chemistry of Solids,2008,69(10):2465-2470.
[11]
王君丽,施雯.Cr12MoV钢表面磁控溅射Ti/TiN涂层的摩擦磨损性能研究[J].摩擦学学报,2005,25(2):126-130.WANG Jun-li,SHI Wen.Friction and wear behavior of magnetron-sputterred Ti/TiN coating on Cr12MoV steel [J].Tribology,2005,25(2):126-130.
[12]
LISTER M.Vanadium carbide diffusion coatings for tool and die components.Proceedings of the 23rd Conference (ASM International).Pennsylvania:Lawrence Convention Center,2006.162-166.
[13]
刘秀娟,王华昌.不同基体材料TD法盐浴渗钒层的组织及硬度[J].材料热处理学报,2010,31(1):150-154.LIU Xiu-juan,WANG Hua-chang.Microstructure and hardness of vanadium carbide coatings prepared by thermal diffusion process on different steel substrate [J].Transactions of Materials and Heat Treatment,2010,31(1):150-154.
[14]
李广泽,乌晓燕,陈扬辉,等.反应磁控溅射碳化钒薄膜的微结构与力学性能[J].真空科学与技术学报,2009,29(2):168-172.LI Guang-ze,WU Xiao-yan,CHEN Yang-hui,et al.Microstructures and mechanical properties of vanadium carbide films grown by reactive magnetron sputtering [J].Chinese Journal of Vacuum Science and Technology,2009,29(2):168-172.
[15]
吴恩熙,颜练武,胡茂中.氧化钒制取碳化钒的热力学分析[J].硬质合金,2004,21(1):1-4.WU En-xi,YAN Lian-wu,HU Mao-zhong.Thermodynamic analysis of using V2O5 as raw material to obtain VC [J].Cemented Carbide,2004,21(1):1-4.
