1 R. Ahmed, 2007
2 M. Richert, 46 : 95-, 2011
3 T. Yamamoto, Springer Science and Business Media LLC 36 (36): 3885-3890, 2001
4 J. Y. Kim, 32 : 1315-, 1995
5 이승수, "Wear Behaviors of WC-CoCr and WC-CrC-Ni Coatings Sprayed by HVOF" 한국산학기술학회 21 (21): 204-211, 2020
6 Park Soo Min ; 남산 ; 오윤석, "Thermal durability of ytterbium silicate environmental barrier coating prepared by suspension plasma spray" 한국세라믹학회 58 (58): 192-200, 2021
7 Teng Wang, "The elevated-temperature wear behavior evolution of HVOF sprayed tungsten carbide coatings: Respond to heat treatment" Elsevier BV 71 : 92-100, 2018
8 R. Nieminen, "Rolling contact fatigue failure mechanisms in plasma and HVOF sprayed WC-Co coatings" Elsevier BV 212 (212): 66-77, 1997
9 Aleksander Yevtushenko, "Influence of thermal sensitivity of the materials on temperature and thermal stresses of the brake disc with thermal barrier coating" Elsevier BV 87 : 288-294, 2017
10 V. Stoica, "Influence of heat-treatment on the sliding wear of thermal spray cermet coatings" Elsevier BV 199 (199): 7-21, 2005
1 R. Ahmed, 2007
2 M. Richert, 46 : 95-, 2011
3 T. Yamamoto, Springer Science and Business Media LLC 36 (36): 3885-3890, 2001
4 J. Y. Kim, 32 : 1315-, 1995
5 이승수, "Wear Behaviors of WC-CoCr and WC-CrC-Ni Coatings Sprayed by HVOF" 한국산학기술학회 21 (21): 204-211, 2020
6 Park Soo Min ; 남산 ; 오윤석, "Thermal durability of ytterbium silicate environmental barrier coating prepared by suspension plasma spray" 한국세라믹학회 58 (58): 192-200, 2021
7 Teng Wang, "The elevated-temperature wear behavior evolution of HVOF sprayed tungsten carbide coatings: Respond to heat treatment" Elsevier BV 71 : 92-100, 2018
8 R. Nieminen, "Rolling contact fatigue failure mechanisms in plasma and HVOF sprayed WC-Co coatings" Elsevier BV 212 (212): 66-77, 1997
9 Aleksander Yevtushenko, "Influence of thermal sensitivity of the materials on temperature and thermal stresses of the brake disc with thermal barrier coating" Elsevier BV 87 : 288-294, 2017
10 V. Stoica, "Influence of heat-treatment on the sliding wear of thermal spray cermet coatings" Elsevier BV 199 (199): 7-21, 2005
11 Qun Wang, "Influence of heat treatment on the microstructure and performance of high-velocity oxy-fuel sprayed WC–12Co coatings" Elsevier BV 206 (206): 4000-4010, 2012
12 Shi Hong Zhang, "Influence of CO2 laser heat treatment on surface properties, electrochemical and tribological performance of HVOF sprayed WC–24%Cr3C2–6%Ni coating" Elsevier BV 119 (119): 458-464, 2010
13 Yan Liu, "High temperature wear performance of laser cladding Co06 coating on high-speed train brake disc" Elsevier BV 481 : 761-766, 2019
14 Digvijay G. Bhosale, "High temperature solid particle erosion behaviour of SS 316L and thermal sprayed WC-Cr3C2–Ni coatings" Elsevier BV 462-463 : 203520-, 2020
15 정성훈 ; 전수혁 ; 박현명 ; 정연길 ; 명상원 ; 양병일, "Growth Behavior of Thermally Grown Oxide Layer with Bond Coat Species in Thermal Barrier Coatings" 한국세라믹학회 55 (55): 344-351, 2018
16 Aleksander Yevtushenko, "Frictional heating of the brake disc with essential nonlinearity thermal barrier coating" Elsevier BV 95 : 210-216, 2018
17 Guoping Li, "Effects of Cr concentration on the microstructure and properties of WC-Ni cemented carbides" Elsevier BV 9 (9): 902-907, 2020
18 Nitesh Vashishtha, "Effect of heat treatment on friction and abrasive wear behaviour of WC-12Co and Cr3C2-25NiCr coatings" Elsevier BV 118 : 381-399, 2018
19 Qiaoqin Yang, "Effect of carbide grain size on microstructure and sliding wear behavior of HVOF-sprayed WC–12% Co coatings" Elsevier BV 254 (254): 23-34, 2003
20 Guoliang Hou, "Effect of Atmospheric Plasma Spraying Power on Microstructure and Properties of WC-(W,Cr)2C-Ni Coatings" Springer Science and Business Media LLC 20 (20): 1150-1160, 2011
21 Chang-Jiu Li, "Dominant effect of carbide rebounding on the carbon loss during high velocity oxy-fuel spraying of Cr3C2–NiCr" Elsevier BV 419 (419): 137-143, 2002
22 Mingxiang Xie, "Comparative investigation on HVOF sprayed carbide-based coatings" Elsevier BV 273 : 799-805, 2013
23 D.A. Stewart, "Abrasive wear behaviour of conventional and nanocomposite HVOF-sprayed WC–Co coatings" Elsevier BV 225-229 : 789-798, 1999