[1] KHADER I, RENZ A, KAILER A. A wear model for silicon nitride in dry sliding contact against a nickel-base alloy[J]. Wear, 2017, 376/377: 352-362.
[2] PAN B, NI Q, YIN B, et al. Preparation and properties of mullite-Si3N4/SiC composite ceramic[J]. Journal of the Chinese Ceramic Society, 2016, 44(9): 1259-1264 (in Chinese).
[3] ZHOU W, MA J, GAO X Q, et al. Effect of high-temperature oxidation on phase structure and flexural strength of Si3N4-SiC ceramics[J]. Journal of the Chinese Ceramic Society, 2022, 50(8): 2104-2109 (in Chinese).
[4] REIS P, DAVIM J P, XU X, et al. Friction and wear behaviour of β-silicon nitride-steel couples under unlubricated conditions[J]. Materials Science and Technology, 2006, 22(2): 247-252.
[5] LI S H, SUI Y H, SUN J, et al. Analysis on friction and wear characteristics and transfer film formation mechanism of Si3N4/PTFE under dry friction condition[J]. Lubrication Engineering, 2022, 47(1): 53-59 (in Chinese).
[6] KRBATA M, ECKERT M, MAJERIK J, et al. Wear behaviour of high strength tool steel 90MnCrV8 in contact with Si3N4[J]. Metals, 2020, 10(6): 756.
[7] LIU X B, LIU H Q, LIU Y F, et al. Effects of temperature and normal load on tribological behavior of nickel-based high temperature self-lubricating wear-resistant composite coating[J]. Composites Part B: Engineering, 2013, 53: 347-354.
[8] ZHAN C T, WU L X, NIU W B, et al. Preparation and properties of sintered reaction-bonded Si3N4 ceramics by gas pressure sintering with ZrO2-MgO-Y2O3 additive[J]. Journal of Functional Materials, 2019, 50(12): 12108-12112 (in Chinese).
[9] FAN S W, XU Y D, ZHANG L T, et al. Preparation and tribological properties of C/SiC friction materials[J]. Journal of Inorganic Materials, 2006, 21(4): 927-934 (in Chinese).
[10] ZHAO Y J, ZHANG Y J, GONG H Y, et al. Effects of Y2O3-MgO nanopowders content on mechanical and dielectric properties of porous BN/Si3N4 composites[J]. Ceramics International, 2015, 41(3): 3618-3623.
[11] LIU W, TONG W X, HE R X, et al. Effect of the Y2O3 additive concentration on the properties of a silicon nitride ceramic substrate[J]. Ceramics International, 2016, 42(16): 18641-18647.
[12] CHEN Y J, LI Q, JIANG D Y. Corrosion study of silicon nitride ceramics in molten salt[J]. Advanced Ceramics, 2010, 31(3): 3-7 (in Chinese).
[13] TAN D W, ZHU L L, WEI W X, et al. Performance improvement of Si3N4 ceramic cutting tools by tailoring of phase composition and microstructure[J]. Ceramics International, 2020, 46(16): 26182-26189.
[14] ZHOU F, CHEN K M, WANG M L, et al. Friction and wear properties of CrN coatings sliding against Si3N4 balls in water and air[J]. Wear, 2008, 265(7/8): 1029-1037.
[15] HUANG L, DAI Q W, HUANG W, et al. Ni/Si3N4 composite coatings and their water lubrication behaviors[J]. Applied Surface Science, 2022, 572: 151534.
[16] ZHANG C X. Preparation and properties of β-silicon nitride whisker reinforced aluminum matrix composites[D]. Shanghai: Shanghai Institute of Ceramics, Chinese Academy of Sciences, 2019 (in Chinese).
[17] WANG W S. Study on steam corrosion and high temperature friction and wear properties of Ti2AlN thin films[D]. Xi’an: Xi’an University of Technology, 2020 (in Chinese).
[18] KASEM H, BONNAMY S, BERTHIER Y, et al. Characterization of surface grooves and scratches induced by friction of C/C composites at low and high temperatures[J]. Tribology International, 2010, 43(11): 1951-1959.
[19] HUA N B, CHEN W Z, WANG W G, et al. Tribological behavior of a Ni-free Zr-based bulk metallic glass with potential for biomedical applications[J]. Materials Science and Engineering: C, 2016, 66: 268-277.
[20] CUI G J, LIU Y P, GAO G J, et al. Microstructure and high-temperature wear performance of FeCr matrix self-lubricating composites from room temperature to 800 ℃[J]. Materials, 2019, 13(1): 51.
[21] HARDELL J, PRAKASH B. High-temperature friction and wear behaviour of different tool steels during sliding against Al-Si-coated high-strength steel[J]. Tribology International, 2008, 41(7): 663-671.
