镍基复合材料制备研究进展
Preparation and Research Progress of Nickel Based Composite

DOI: 10.12677/MEng.2016.32009, PP. 57-63

Keywords: 镍基复合材料，颗粒增强，原位反应法
Nickel Based Composite, Particle Reinforcement, In-Situ Reaction

Full-Text   Cite this paper   Add to My Lib

Abstract:

本文主要综述了近年来，国内外颗粒增强镍基复合材料制备研究进展。指出了研究实验中存在的不足，并在最后提出了建议与展望。
The recent home and overseas research progress on particle reinforced Ni matrix composites preparation was reviewed. The deficiency in research experiments was pointed out. In the end, suggestions were put forward and the prospect was carried out.

References

[1]	崔洪宾. 脉冲电铸制备氧化铈–铜复合材料及其EDM抗电蚀性能研究[D]: [硕士学位论文]. 淄博: 山东理工大学, 2014.
[2]	段智鹏. 基于氧化镧的电铸EDM铜电极制备及试验研究[D]: [硕士学位论文]. 淄博: 山东理工大学, 2012.
[3]	兰宏宇, 马春阳, 等. 电沉积工艺参数对Ni-TiN纳米复合镀层粒子复合量的影响[J]. 兵器材料科学与工程, 2015(3): 52-54.
[4]	陈绍军. 超声电沉积制备镍基纳米复合材料的结构与性能[J]. Hot Working Technology, 2014(8): 114-116.
[5]	Karbasi, M., Yazdian, N. and Vahidian, A. (2012) Development of Elec-tro-Co-Deposited Ni-TiC Nano-Particle Reinforced Nanocomposite Coatings. Surface & Coatings Technology, 207, 587-593. http://dx.doi.org/10.1016/j.surfcoat.2012.07.083
[6]	K？l？c, F., Gül, H., Aslana, S., et al. (2013) Effect of CTAB Concentration in the Electrolyte on the Tribological Properties of Nanoparticle SiC Reinforced Ni Metal Matrix Com-posite (MMC) Coatings Produced by Electrodeposition. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 419, 53-60. http://dx.doi.org/10.1016/j.colsurfa.2012.11.048
[7]	邓姝皓, 王妹, 等. 电沉积制备纳米晶铁–镍–铬合金箔工艺及机理研究[J]. 金属功能材料, 2014(6): 34-40.
[8]	Chen, S.P., Meng, Q.S., Zhang, N., et al. (2010) Graded Materials of (TiB2)pNi with Nickel Substrate Prepared by Field-Activated Pressure-Assisted Synthesis Process. Journal of Wuhan University of Technology-Mater, 39-43.
[9]	Srivastava, M., Muniprakash, M. and Singh, S.K. (2014) Synthesis of Fused Mullite and Its Use in Multifunctional Nickel Based Composite Coating. Surface & Coatings Technology, 245, 148-155. http://dx.doi.org/10.1016/j.surfcoat.2014.02.053
[10]	徐立鹏, 包春江. 镍基及镍合金纳米复合电刷镀的研究进展[J]. 表面技术, 2015(4): 6-14.
[11]	王创业, 刘维桥, 等. 纳米SiC微粒增强镍基复合材料的研究进展[J]. 电镀与环保, 2015(2): 1-3.
[12]	翁俊飞, 王昊人, 等. 电沉积镍基自润滑复合材料固体润滑剂的研究进展[J]. 材料导报, 2013(7): 55-58.
[13]	汪路路, 王小龙, 等. 颗粒增强镍基合金复合熔覆层及其摩擦学性能研究现状[J]. 工程材料应用, 2015(2): 64-80.
[14]	李养良, 罗红梅, 等. 45钢多道搭接激光熔覆层的组织与性能[J]. 热加工工艺, 2009(4): 68-70.
[15]	Zhang, D.W. and Lei, T.C. (2003) The Microstructure and Erosive-Corrosive Wear Performance of Laser-Clad Ni- Cr3C2 Composite Coating. Wear, 255, 129-133. http://dx.doi.org/10.1016/S0043-1648(03)00283-7
[16]	董刚, 严彪, 邓琦林, 余廷. 搭接对激光熔覆Ni60合金涂层组织影响的研究[J]. 材料导报, 2010, 24(22): 10-12.
[17]	张坚, 吴文妮, 赵龙志. 激光熔覆研究现状及发展趋势[J]. 热加工工艺, 2013, 42(6): 131-134.
[18]	周思华, 晁明举, 刘奎立, 郭艳花. 原位生成WC-B4C增强镍基激光熔覆层及其性能研究[J]. 表面技术, 2014, 43(3): 25-30.
[19]	Chao, M.-J., Wang, W.-L., Liang, E.-J. and Ouyang, D.X. (2008) Microstructure and Wear Resistance of TaC Reinforced Ni-Based Coating by Laser Cladding. Surface and Coatings Technology, 202, 1918-1922. http://dx.doi.org/10.1016/j.surfcoat.2007.08.021
[20]	张现虎, 晃明举, 梁二军, 袁斌. 激光熔覆原位生成TiC-ZrC颗粒增强镍基复合涂层[J]. 中国激光, 2009, 36(4): 998-1004.
[21]	江吉彬, 练国富, 许明三. 激光熔覆技术研究现状及趋势[J]. 重庆理工大学学报: 自然科学版, 2015, 29(1): 27- 36.
[22]	Liu, X.B., Liu, H.Q., Liu, Y.F., et al. (2013) Effects of Temperature and Normal Load on Tribological Behavior of Nickel-Based High Temperature Self-Lubricating Wear-Resistant Composite Coating. Composites Part B: Engineering, 53, 347-354. http://dx.doi.org/10.1016/j.compositesb.2013.05.032
[23]	Kusmoko, A., Dunne, D.P. and Li, H.J. (2014) A Comparative Study for Wear Resistant of Stellite 6 Coatings on Nickel Alloy Substrate Produced by Laser Cladding HVOF and Plasma Spraying Techniques. International Journal of Current Engineering and Technology, 4, 32-36．
[24]	刘邦涛, 孙福久, 等. IN718镍基高温合金选择性激光熔化成形的制备及性能[J]. 热处理技术与装备, 2015, 36(5): 82-84.
[25]	张艳梅, 华海, 帅歌国, 揭晓华, 曾鹏. 激光熔覆微纳米WC颗粒增强镍基金属陶瓷涂层的裂纹研究[J]. 热加工工艺, 2014(24): 154-157.
[26]	杨胶溪, 王艳芳, 王志成. 激光熔覆制备Ni/Ni3Al基双性能材料及其内部微观组织分析[J]. 中国激光, 2015(3): 191-197.
[27]	李养良, 金海霞, 白小波, 席守谋. 激光熔覆技术的研究现状与发展趋势[J]. 热处理技术与装备, 2009, 30(4): 1-5.
[28]	Ba？a, L., Len？é？, Z., Jogl, C., et al. (2012) Micro-structure Evolution and Tribological Properties of TiB2/Ni-Ta Cermets. Journal of the European Ceramic Society, 32, 1941-1948. http://dx.doi.org/10.1016/j.jeurceramsoc.2011.10.039
[29]	Zou, B., Huang, C.Z., Song, J.P., Liu, Z.Y., Liu, L. and Zhao, Y. (2012) Effects of Sintering Processes on Mechanical Properties and Microstructure of TiB2-TiC + 8 wt% Nano-Ni Composite Ceramic Cutting Tool Material. Materials Science and Engineering: A, 540, 235-244. http://dx.doi.org/10.1016/j.msea.2012.02.002
[30]	Wang, L.M., Liu, H.L., Huang, C.Z., Zou, B. and Liu, X.F. (2014) Effects of Sintering Processes on Mechanical Properties and Microstructure of Ti(C,N)-TiB2-Ni Composite Ceramic Cutting Tool Material. Ceramics International, 40, 16513-16519. http://dx.doi.org/10.1016/j.ceramint.2014.08.003
[31]	闫成旗. 镍基抗磨合金的制备及其性能研究[D]: [硕士学位论文]. 兰州: 兰州理工大学, 2013.
[32]	李乾, 孙旭东, 修稚萌. 热压烧结制备Al2O3/TiCN-Ni-Ti陶瓷复合材料的组织与性能[J]. 中国有色金属学报, 2012(8): 2311-2316.
[33]	Kim, S.S., Xu, N., Li, A.W., Grace, J.R., Lim, C.J. and Ryi, S.-K. (2015) Development of a New Porous Metal Support Based on Nickel and Its Application for Pd Based Composite Membranes. International Journal of Hydrogen Energy, 40, 3520-3527. http://dx.doi.org/10.1016/j.ijhydene.2014.08.075
[34]	于秀平, 沈以赴, 顾冬冬. 激光烧结法制备原位增强型多孔镍基复合材料[J]. 稀有金属与硬质合金, 2009, 37(4): 11-14.
[35]	葛禹锡, 黄锋, 倪红军, 朱昱. 自蔓延高温合成法制备粉体的研究进展[J]. 热加工工艺, 2012, 41(12): 75-78.
[36]	梁宝岩, 赵清国, 李烨, 李莹, 李中军. 自蔓延高温烧结制备陶瓷结合剂金刚石复合材料[J]. 金刚石与磨料磨具工程, 2013, 33(6): 26-29.
[37]	王艳芝, 梁宝岩, 张旺玺, 刘嘉霖. 自蔓延烧结法制备Al4C3涂覆金刚石复合材料[J]. 金刚石与磨料磨具工程, 2014(5): 35-38.
[38]	Yang, Y.F. and Jiang, Q.C. (2013) Reaction Behaviour, Microstructure and Mechanical Properties of TiC-TiB2/Ni Composite Fabricated by Pressure Assisted Self-Propagating High-Temperature Synthesis in Air and Vacuum. Materials & Design, 49, 123-129. http://dx.doi.org/10.1016/j.matdes.2013.02.036
[39]	Yang, Y.F., Mu, D.K. and Jiang, Q.C. (2014) A Simple Route to Fabricate TiC-TiB2/Ni Composite via Thermal Explosion Reaction Assisted with External Pressure in Air. Materials Chemistry and Physics, 143, 480-485. http://dx.doi.org/10.1016/j.matchemphys.2013.10.003
[40]	Shokat, A.A., Parvin, N. and Shokati, M. (2014) Combustion Synthesis of NiAl Matrix Composite Powder Reinforced by TiB2 and TiN Particulates from Ni-Al-Ti-BN Reaction System. Journal of Alloys and Compounds, 585, 637-643. http://dx.doi.org/10.1016/j.jallcom.2013.09.020
[41]	张赋, 李旭东. 金属基复合材料微观组织结构的计算机模拟[J]. 中国有色金属学报, 2014, 24(1): 97-103.

Full-Text