陶瓷材料表面织构减摩抗磨性能的研究进展

doi:10.19976/j.cnki.43-1448/TF.2024054

Abstract
Figure/Table
References
Related Citation (15)

Download: PDF (740 KB) HTML (0 KB)
Export: BibTeX | EndNote (RIS)

Abstract Surface texture is an effective method of friction reduction and anti-wear of ceramic materials, which can reduce the friction factor during sliding and the loss caused by the wear of ceramics. In this work, the preparation, type, geometric parameters, and tribological mechanism of surface texture of ceramics are reviewed. Firstly, the main preparation methods (laser processing, reactive ion etching) for the surface texture of ceramics are introduced. Secondly, the effects of the types (convex dot, pit, groove, bionic texture, etc.) and geometric parameters (width, depth, area ratio, etc.) of surface textures on the tribological properties of ceramics are discussed. Subsequently, the tribological mechanisms of surface texture under dry sliding and lubrication conditions are analyzed, respectively. In the condition of dry sliding, the surface texture can trap the wear debris and reduce the contact area between the ceramics and the counterbody; in the condition of lubrication, the surface texture can improve the hydrodynamic pressure and wettability of the ceramics during sliding, both of which can improve the tribological properties of the ceramics. Finally, the current challenges and future research directions of the surface texture of ceramics are summarized and prospected.

Key words： ceramic material surface texture friction wear lubrication

Received: 07 June 2024 Published: 18 November 2024

ZTFLH:

TB321

	Service

	E-mail this article
	Add to my bookshelf
	Add to citation manager
	E-mail Alert
	RSS
	Articles by authors
	ZHANG Jie
	ZHANG Wei

Cite this article:

ZHANG Jie,ZHANG Wei. Research progress of friction reduction and anti-wear properties of surface texture of ceramic materials[J]. Materials Science and Engineering of Powder Metallurgy, 2024, 29(5): 341-352.

URL:

http://pmbjb.csu.edu.cn/EN/10.19976/j.cnki.43-1448/TF.2024054 OR http://pmbjb.csu.edu.cn/EN/Y2024/V29/I5/341

[1] ZHANG W.A review of tribological properties for boron carbide ceramics[J]. Progress in Materials Science, 2020, 116: 100718.
[2] OJALVO C, SÁNCHEZ-GONZÁLEZ E, GUIBERTEAU F, et al. Improving the dry sliding-wear resistance of B₄C ceramics by transient liquid-phase sintering[J]. Journal of the European Ceramic Society, 2020, 40(15): 5286-5292.
[3] 张巍, 张杰. 碳化硼陶瓷自润滑研究现状[J]. 中国表面工程, 2024, 37(3): 103-114.
ZHANG Wei, ZHANG Jie.State of the art on self-lubrication of boron carbide ceramics[J]. China Surface Engineering. 2024, 37(3): 103-114.
[4] ZAMORA V, MARTÍNEZ-VÁZQUEZ F J, GUIBERTEAU F, et al. Unlubricated sliding wear of B₄C composites spark-plasma sintered with Si aids and of their reference B₄C monoliths[J]. Journal of the European Ceramic Society, 2023, 43(3): 814-823.
[5] WANG X L, KATO K.Improving the anti-seizure ability of SiC seal in water with RIE texturing[J]. Tribology Letters, 2003, 14(4): 275-280.
[6] 张巍. SiC陶瓷自润滑的研究进展与展望[J/OL]. 摩擦学学报, 2024,[2024-06-07]. https://doi.org/10.16078/j.tribology.2023240.
ZHANG Wei. Progress and prospect of self-lubrication of SiC ceramics[J/OL]. Triblolgy, 2024,[2024-06-07]. https://doi.org/10.16078/j.tribology.2023240.
[7] HAMILTON D B, WALOWIT J A, ALLEN C M.A theory of lubrication by microirregularities[J]. Journal of Basic Engineering, 1966, 88(1): 177-185.
[8] 郭志远, 崔晓斌, 燕凯. 仿生微坑-槽复合织构陶瓷刀具硬车削性能研究[J]. 工具技术, 2019, 53(1): 25-30.
GUO Zhiyuan, CUI Xiaobin, YAN Kai.Study on hard turning performance of bionic micro-dimple-groove composite textured ceramic cutting tools[J]. Tool Engineering, 2019, 53(1): 25-30.
[9] 刘晓敏, 赵登超, 罗林辉, 等. 仿生物体表非光滑微织构形态刀具应用及发展[J]. 机械设计与研究, 2019, 35(3): 114-118.
LIU Xiaomin, ZHAO Dengchao, LUO Linhui, et al.Research of biomimetic biological non-smooth surfacemicro-textured tool application and progress[J]. Machine Design & Research, 2019, 35(3): 114-118.
[10] GAVRILOV K, ROZHDESTVENSKII Y, UMURZAKOV I.A method for mathematical modeling of hydrodynamic friction of plunger pairs with consideration of microgeometry[J]. Mathematics, 2023, 11(12): 2637.
[11] NIU Y S, HAO X Q, XIA A N, et al.Effects of textured surfaces on the properties of hydrodynamic bearing[J]. The International Journal of Advanced Manufacturing Technology, 2022, 118(5): 1589-1596.
[12] CHEN T Y, JI J H, FU Y H, et al.Tribological performance of UV picosecond laser multi-scale composite textures for C/SiC mechanical seals: theoretical analysis and experimental verification[J]. Ceramics International, 2021, 47(16): 23162-23180.
[13] ZHANG W, YAMASHITA S, KITA H. Effect of counterbody on tribological properties of B₄C-SiC composite ceramics[J]. Wear, 2020, 458/459: 203418.
[14] TAN D W, LIU R P, ZHOU Y, et al.Improvement of cutting performance of SiAlON ceramic by texture engineering in turning superalloys[J]. Ceramics International, 2023, 49(18): 29971-29983.
[15] HAN K, LI J N, WANG Q, et al.Study on oil film pressure distribution and load capacity of textured rolling bearings[J]. Industrial Lubrication and Tribology, 2020, 72(7): 961-967.
[16] QUINTERO F, POU J, LUSQUIÑOS F, et al. Quantitative evaluation of the quality of the cuts performed on mullite-alumina by Nd:YAG laser[J]. Optics and Lasers in Engineering, 2004, 42(3): 327-340.
[17] 张正, 陈晓晓, 李德鑫, 等. 工程陶瓷凹槽型表面微织构激光制备工艺研究[J]. 应用激光, 2018, 38(1): 64-69.
ZHANG Zheng, CHEN Xiaoxiao, LI Dexin, et al.Study on laser preparation of groove surface micro texture of engineering ceramics[J]. Applied Laser, 2018, 38(1): 64-69.
[18] YAN S, WEI C, ZOU H, et al.Fabrication and tribological characterization of laser textured engineering ceramics: Si₃N₄, SiC and ZrO₂[J]. Ceramics International, 2021, 47(10): 13789-13805.
[19] XING Y Q, DENG J X, ZHOU Y H, et al.Fabrication and tribological properties of Al₂O₃/TiC ceramic with nano-textures and WS₂/Zr soft-coatings[J]. Surface and Coatings Technology, 2014, 258: 699-710.
[20] WANG X L, KATO K, ADACHI K.The lubrication effect of micro-pits on parallel sliding faces of SiC in water[J]. Tribology Transactions, 2002, 45(3): 294-301.
[21] GUO X H, LIU F, ZHANG K D, et al.Controllable preparation of micro-textures on WC/Co substrate surface by an integrated laser-dry etching process for improving PVD coatings adhesion[J]. Applied Surface Science, 2020, 534: 147580.
[22] FANG Z L, OBIKAWA T.Cooling performance of micro-texture at the tool flank face under high pressure jet coolant assistance[J]. Precision Engineering, 2017, 49: 41-51.
[23] 黄云磊, 钟林, 王国荣, 等. 表面织构润滑减摩的国内外研究现状及进展[J]. 表面技术, 2021, 50(12): 217-232.
HUANG Yunlei, ZHONG Lin, WANG Guorong, et al.Research status and progress of surface texture lubrication and friction reduction[J]. Surface Technology, 2021, 50(12): 217-232.
[24] 吕延军, 方重阳, 邢志国, 等. 仿生织构图案的设计、加工及应用的研究进展[J]. 表面技术, 2021, 50(2): 112-122.
LÜ Yanjun, FANG Chongyang, XING Zhiguo, et al.Research progress in design, processing and application of bionic texture patterns[J]. Surface Technology, 2021, 50(2): 112-122.
[25] XU J Y, ZHANG X M, DAI J Y, et al.Biomimetic microtextured surfaces to improve tribological and antibacterial behaviors of 3Y-TZP ceramics[J]. Journal of Materials Research and Technology, 2023, 23: 1360-1374.
[26] JI M, ZHANG H, XU J Y, et al.Toward the mechanisms of surface texturing on the wear behavior of dental zirconia ceramics under dry and saliva lubricated conditions[J]. Wear, 2021, 484: 203845.
[27] FANG Y, ZHANG Y S, FAN H Z, et al. Surface composition-lubrication design of Al₂O₃/Mo laminated composites: part I: influence of laser surface texturing on the tribological behavior at 25 and 800 ℃[J]. Wear, 2015, 334/335: 23-34.
[28] HAN Z B, MA L J, YU X Q, et al.Numerical simulation and experimental investigation on the friction reduction properties of ZrO₂ by laser surface texture[J]. Applied Physics A, 2024, 130(1): 64.
[29] 韩智斌, 马廉洁, 赵镇. 激光加工复合织构非光滑表面减摩性能的研究[J]. 组合机床与自动化加工技术, 2023(7): 57-60.
HAN Zhibin, MA Lianjie, ZHAO Zhen.Study on the antifriction properties of laser processed nonsmooth surfaces with composite textures[J]. Modular Machine Tool & Automatic Manufacturing Technique, 2023(7): 57-60.
[30] ZOU H B, YAN S, SHEN T, et al. Efficiency of surface texturing in the reducing of wear for tests starting with initial point contact[J]. Wear, 2021, 482/483: 203957.
[31] XING Y Q, DENG J X, FENG X T, et al.Effect of laser surface texturing on Si₃N₄/TiC ceramic sliding against steel under dry friction[J]. Materials & Design, 2013, 52: 234-245.
[32] FENG Y H, ZHANG J Y, WANG L, et al.Study on secondary cutting phenomenon of micro-textured self-lubricating ceramic cutting tools with different morphology parameters formed via in situ forming of Al₂O₃-TiC[J]. The International Journal of Advanced Manufacturing Technology, 2019, 104(9): 3821-3833.
[33] 王鹏洋, 龙威, 赵章行, 等. SiC表面水滴型微织构的水润滑特性研究[J]. 表面技术, 2024, 53(1): 96-104.
WANG Pengyang, LONG Wei, ZHAO Zhangxing, et al.Water lubrication characteristics of droplet texture on SiC surface[J]. Surface Technology, 2024, 53(1): 96-104.
[34] DENG W, WU X, XU Z L, et al.Friction and wear behaviors of perfluoropolyether-impregnated plasma-sprayed yttria- stabilized zirconia coatings[J]. Journal of Materials Engineering and Performance, 2024, 33(3): 1369-1379.
[35] XU J Y, JI M, LI L F, et al.Improving wettability, antibacterial and tribological behaviors of zirconia ceramics through surface texturing[J]. Ceramics International, 2022, 48(3): 3702-3710.
[36] CHEN X, WANG C G, JIANG J Y, et al.Effect of picosecond laser texturing on the friction behavior of silicon carbide in hybrid ceramic bearings under dry and water lubrication[J]. Ceramics International, 2023, 49(18): 29857-29869.
[37] FAN H Z, HU T C, ZHANG Y S, et al.Tribological properties of micro-textured surfaces of ZTA ceramic nanocomposites under the combined effect of test conditions and environments[J]. Tribology International, 2014, 78: 134-141.
[38] JING X B, WANG J Y, LI J L, et al.Tribological behavior of zirconia ceramic with micro-channels produced by nanosecond laser[J]. Materials Today Communications, 2023, 36: 106670.
[39] BAO Y C, DENG J X, MA K X, et al.Thick-film printing of TaS₂ soft films on the textured surface to enhance wear life[J]. Surface and Coatings Technology, 2024, 476: 130231.
[40] SU Y F, FAN H Z, ZHANG Y S, et al.Surface engineering design of alumina/molybdenum fibrous monolithic ceramic to achieve excellent lubrication in a high vacuum environment[J]. Tribology Letters, 2018, 66(2): 72.
[41] LIU C X, SUN J L, VENTURI F, et al.Microstructure and wear performance of alumina/graphene coating on textured Al₂O₃/TiC substrate composites[J]. Journal of the European Ceramic Society, 2021, 41(2): 1438-1451.
[42] LI X M, DENG J X, YUE H Z, et al.Wear performance of electrohydrodynamically atomized WS₂ coatings deposited on biomimetic shark-skin textured surfaces[J]. Tribology International, 2019, 134: 240-251.
[43] XING Y Q, DENG J X, WU Z, et al.High friction and low wear properties of laser-textured ceramic surface under dry friction[J]. Optics & Laser Technology, 2017, 93: 24-32.
[44] ZHANG W, YAMASHITA S, KITA H.Tribological properties of SiC-B₄C ceramics under dry sliding condition[J]. Journal of the European Ceramic Society, 2020, 40(8): 2855-2861.
[45] SCHNEIDER J, BRAUN D, GREINER C.Laser textured surfaces for mixed lubrication: influence of aspect ratio, textured area and dimple arrangement[J]. Lubricants, 2017, 5(3): 32.
[46] VENKATESWARA BABU P, SYED I, BENBEERA S.Experimental investigation on effects of positive texturing on friction and wear reduction of piston ring/cylinder liner system[J]. Materials Today: Proceedings, 2020, 24: 1112-1121.
[47] XU Y F, PENG Y B, DEARN K D, et al.Fabrication and tribological characterization of laser textured boron cast iron surfaces[J]. Surface and Coatings Technology, 2017, 313: 391-401.
[48] LI K M, YAO Z Q, HU Y X, et al.Friction and wear performance of laser peen textured surface under starved lubrication[J]. Tribology International, 2014, 77: 97-105.
[49] 赫冬, 韩晓光, 陈广聪, 等. CKS活塞环表面微织构几何形貌及排布方式对摩擦学性能的影响[J]. 中国表面工程, 2021, 34(2): 59-69.
HE Dong, HAN Xiaoguang, CHEN Guangcong, et al.Effect of geometrical morphology and arrangement of micro-texture on friction property of CKS piston ring[J]. China Surface Engineering, 2021, 34(2): 59-69.
[50] HUA X J, PUOZA J C, ZHANG P Y, et al.Experimental analysis of grease friction properties on sliding textured surfaces[J]. Lubricants, 2017, 5(4): 42.
[51] XING Y Q, DENG J X, WU Z, et al.Effect of regular surface textures generated by laser on tribological behavior of Si₃N₄/TiC ceramic[J]. Applied Surface Science, 2013, 265: 823-832.
[52] ZHANG W, CHEN X Y, YAMASHITA S, et al.B₄C-SiC ceramics with interfacial nanorelief morphologies and low underwater friction and wear[J]. ACS Applied Nano Materials, 2021, 4(3): 3159-3166.
[53] 季浩. 基于第二润滑介质的水润滑实时增效研究[D]. 青岛: 青岛理工大学, 2023.
JI Hao.Research on real-time efficiency enhancement of water lubrication based on the secondary lubricant[D]. Qingdao: Qingdao University of Technology, 2023.
[54] LIANG Y N, WANG W, ZHANG Z P, et al.Effect of material selection and surface texture on tribological properties of key friction pairs in water hydraulic axial piston pumps: a review[J]. Lubricants, 2023, 11(8): 324.
[55] GAIKWAD A, VÁZQUEZ-MARTÍNEZ J M, SALGUERO J, et al. Tribological properties of Ti₆Al₄V titanium textured surfaces created by laser: effect of dimple density[J]. Lubricants, 2022, 10(7): 138.
[56] JING X B, XIA Y, ZHENG S X, et al.Effect of surface modification on wettability and tribology by laser texturing in Al₂O₃[J]. Applied Optics, 2021, 60(15): 4434-4442.
[57] MOURA C G, PEREIRA R, BUCIUMEANU M, et al.Effect of laser surface texturing on primary stability and surface properties of zirconia implants[J]. Ceramics International, 2017, 43(17): 15227-15236.
[58] GE D L, DENG J X, DUAN R, et al.Effect of surface wettability on tribological properties of Al₂O₃/TiC ceramic under wet lubrication[J]. Ceramics International, 2019, 45(18): 24554-24563.
[59] YANG D, KRASOWSKA M, PRIEST C, et al.Dynamics of capillary-driven flow in open microchannels[J]. The Journal of Physical Chemistry C, 2011, 115(38): 18761-18769.
[60] TANG J C, YU Y Y, HU X G, et al.Study on the characteristics of the capillary wetting and flow in open rectangular microgrooves heat sink[J]. Applied Thermal Engineering, 2018, 143: 90-99.
[61] HAN Y J, LIU F, ZHANG K D, et al.A study on tribological properties of textured Co-Cr-Mo alloy for artificial hip joints[J]. International Journal of Refractory Metals and Hard Materials, 2021, 95: 105463.
[62] YANG L J, DING Y, CHENG B, et al.Investigations on femtosecond laser modified micro-textured surface with anti-friction property on bearing steel GCr15[J]. Applied Surface Science, 2018, 434: 831-842.
[63] WANG X L, ADACHI K, OTSUKA K, et al.Optimization of the surface texture for silicon carbide sliding in water[J]. Applied Surface Science, 2006, 253(3): 1282-1286.