[1] BA G P,SAPATE S G,KHATIRKAR R K,et al.Friction and abrasive wear behaviour of Al2O3-13TiO2 and Al2O3 -13TiO2+Ni graphite coatings [J].Tribology International,2018,121:353-372. [2] RAMAZANI M,ASHRAFIZADEH F,MOZAFFARINIA R.Optimization of composition in Ni(Al)-Cr2O3 based adaptive nanocomposite coatings [J].Journal of Thermal Spray Technology,2014,23(6):962-974. [3] LI Y,MENG X,LI R,et al.Effect of Ni content on microstructure and performance of Ni/ceramic composite coating [J].Journal of Materials Engineering and Performance,2020,29(3):1-12. [4] TIAN H,WANG C,GUO M,et al.Influence of Ni and Cr on the high-temperature wear resistance of FeNiCrAl coatings [J].Results in Physics,2018,12:959-969. [5] 王鹏春,路 阳,杨效田,等.强制冷却对感应重熔Ni60合金涂层组织结构的影响 [J].中国有色金属学报,2016,26(2):375-382. [6] 杨效田,魏亨利,周 俊,等.重熔温度对Ni60/WC定向结构涂层微结构演变的影响 [J].哈尔滨工程大学学报,2022,43(4):587-592. [7] YANG X T,LI X Q,YANG Q B,et al.Effects of WC on microstructure and corrosion resistance of directional structure Ni60 coatings [J].Surface and Coatings Technology,2020,385:125359. [8] KONG L Q,ZHU S,BI Q,et al.Friction and wear behavior ofself-lubricating ZrO2(Y2O3)-CaF2-Mo-Graphite composite from 20 ℃ to 1 000 ℃ [J].Ceramics International,2014,40:10787-10792. [9] OUYANG J H,SASAKI S,MURAKAMI T,et al.Tribological properties of spark-plasma-sintered ZrO2(Y2O3)-CaF2-Ag composites at elevated temperatures [J].Wear,2005,258(9):1444-1454. [10] ZHEN J M,CHENG J,LI M H,et al.Lubricating behavior of adaptive nickel alloy matrix composites with multiple solid lubricants from 25 ℃ to 700 ℃ [J].Tribology International,2017,109:174-181. [11] CHENG Jun,ZHEN Jinming,ZHU Shengyu,et al.Friction and wear behavior of Ni-based solid-lubricating composites at high temperature in a vacuum environment [J].Materials & Design,2017,122:405-413. [12] ZHEN J,LI F,ZHU S,et al.Friction and wear behavior of Nickel-alloy based high temperature self-lubricating composites against Si3N4 and Inconel 718[J].Tribology International,2014,75:1-9. [13] LI F,CHENG J,QIAO Z H.A nickel-alloy-based high-temperature self-Lubricating composite with simultaneously superior lubricity and high strength [J].Tribology Letters,2013,49(3):573-577. [14] YU Y,ZHOU J,CHEN J,et al.Microstructure and tribological behavior of laser cladding NiCr/Cr3C2-Ag-BaF2/CaF2 self-lubrication wear-resistant metal matrix composite coating [J].China Surface Engineering,2010,23:6-9. [15] YUAN J H,ZHU Y C,JI H,et al.Microstructures and tribological properties of plasma sprayed WC-Co-Cu-BaF2/CaF2 self-lubricating wear resistant coatings [J].Applied Surface Science,2010,256:4938-4944. [16] 张有茶,贾成厂,何利民,等.高能球磨制备NiCr-Cr2O3-BaF2·CaF2复合粉末及其爆炸喷涂层的性能 [J].粉末冶金工业,2010,20(2):1-6. [17] MENG L,SHENG P,ZENG X.Comparative studies on the Ni60 coatings deposited by conventional and induction heating assisted extreme-high-speed laser cladding technology:formability,microstructure and hardness [J].Journal of Materials Research and Technology,2021,16:1732-1746. [18] 毛卫民.金属材料的晶体学织构与各向异性 [M].北京:科学出版社,2002. [19] LV J J,ZHANG C,CHEN Z Y,et al.Fabrication and characterization of Ni60A alloy coating on copper pipe by plasma cladding with induction heating [J].Coatings,2021,11:1080-1109. [20] QIAO Y,HUANG J,HUANG D,et al.Effects of laser scanning speed on microstructure,microhardness,and corrosion behavior of laser cladding Ni45 coatings [J].Journal of Chemistry,2020,2020:1-11. [21] WANG L Q,ZHOU J S,YU Y J,et al.Effect of powders refinement on the tribological behavior of Ni-based composite coatings by laser cladding [J].Applied Surface Science,2012,258:6697-6704. [22] BURTON A W,ONG K,REA T,et al.On the estimation of average crystallite size of zeolites from the Scherrer equation:a critical evaluation of its application tozeolites with one-dimensional pore systems [J].Microporous Mesoporous Mater,2009,117:75-90. |