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当前位置:首页 > 过刊浏览->2016年38卷10期


水润滑材料研究进展
Lubrication materials under water condition

DOI:
作者:
白照高1, 张海鹰2, 牛宏磊2, 孙继红3, 刘昊4, 王建章4
Bai Zhao-gao1, Zhang Hai-ying2, Niu Hong-lei2, Sun Ji-hong3, Liu Hao4, Wang Jian-zhang4
作者单位:
1. 海军装备部, 陕西 西安 710077;
2. 中国船舶重工集团公司 第七〇五研究所, 陕西 西安 710077;
3. 海军驻侯马八七四厂军事代表室, 山西 侯马 043002;
4. 中国科学院兰州化学物理研究所, 甘肃 兰州 730000
1. Naval Armament Department, Xi'an 710077, China;
2. The 705 Research Institute of CSIC, Xi'an 710077, China;
3. Military Representative Office of Navy in No.874 Factory, Houma 043002, China;
4. Lanzhou Institute of Chemical Physics, Lanzhou 730000, China
关键词:
水环境;润滑材料;摩擦;磨损
water lubrication; lubrication materials; friction; wear
摘要:
材料服役于水环境中,其摩擦磨损行为不仅与摩擦副材料本身的性质有关,还与载荷、速度、温度等因素相关,同时也与所处的环境有很大关系。本文重点阐述水环境对材料摩擦磨损性能的影响机制。在此基础上,进一步讨论材料在水溶液中的摩擦磨损行为。
The tribological properties of water-lubricated materials are not only about their nature properties, they are about applied load, velocity, temperature. More importantly, the water condition plays significant roles on their tribological properties. In this paper, the influence mechanism of water condition on frictional and wear behaviors of water-lubricated materials was analyzed. Moreover, the influence of aqueous solution was further illustrated.
2016,38(10): 7-13 收稿日期:2016-5-7
DOI:10.3404/j.issn.1672-7619.2016.10.002
分类号:TH117.1
作者简介:白照高(1966-),男,高级工程师,主要从事鱼雷总体技术研究。
参考文献:
[1] YAMAMOTO Y, TAKASHIMA T. Friction and wear of water lubricated PEEK and PPS sliding contacts[J]. Wear, 2002, 253(7/8):820-826.
[2] LANCASTER J K. Lubrication of carbon fibre-reinforced polymers Part I-water and aqueous solutions[J]. Wear, 1972, 20(3):315-333.
[3] JIA J H, CHEN J M, ZHOU H D, et al. Comparative investigation on the wear and transfer behaviors of carbon fiber reinforced polymer composites under dry sliding and water lubrication[J]. Composites Science and Technology, 2005, 65(7/8):1139-1147.
[4] 贾均红, 陈建敏, 周惠娣, 等. 炭纤维增强聚醚醚酮复合材料在水润滑下的摩擦学行为[J]. 高分子材料科学与工程, 2005, 21(2):208-212.
[5] 李凌, 江传力, 刘守山, 等. 润滑条件对纳米SiO2填充尼龙复合材料摩擦学性能的影响[J]. 润滑与密封, 2005(2):75-76, 80.
[6] WU J, CHENG X H. The tribological properties of Kevlar pulp reinforced epoxy composites under dry sliding and water lubricated condition[J]. Wear, 2006, 261(11/12):1293-1297.
[7] ZHANG H A, HU X P, YAN J H, et al. Study of wear behavior of MoSi2 under water lubrication[J]. Materials Letters, 2005, 59(5):583-587.
[8] SOKOLOFF L, LEE S L. Effect of aqueous cations on friction between rubber and glass[J]. Wear, 1983, 88(2):207-219.
[9] ZHOU F, ADACHI K, KATO K. Friction and wear behavior of BCN coatings sliding against ceramic and steel balls in various Environments[J]. Wear, 2006, 261(3/4):301-310.
[10] GUO F, TIAN Y, LIU Y, et al. Ultralow friction between cemented carbide and graphite in water using three-step ring-on-ring friction test[J]. Wear, 2016, 54-64; 352-353.
[11] JIA J H, LU J J, ZHOU H D, et al. Tribological behavior of Ni-based composite under distilled water lubrication[J]. Materials Science and Engineering:a, 2004, 381(1/2):80-85.
[12] 闫玉涛, 李保民, 王丹. HIP-Si3N4陶瓷/45#钢副干摩擦和水润滑下摩擦学性能[J]. 润滑与密封, 2005(4):75-76, 80.
[13] LANCASTER J K. A review of the influence of environmental humidity and water on friction, lubrication and wear[J]. Tribology International, 1990, 23(6):371-389.
[14] SRINATH G, GNANAMOORTHY R. Sliding wear performance of polyamide 6-clay nanocomposites in water[J]. Composites Science and Technology, 2007, 67(3/4):399-405.
[15] XIONG D S, GE S R. Friction and wear properties of UHMWPE/Al2O3 ceramic under different lubricating conditions[J]. Wear, 2001, 250(1/12):242-245.
[16] DHIEB H, BUIJNSTERS J G, ELLEUCH K, et al. Effect of relative humidity and full immersion in water on friction, wear and debonding of unidirectional carbon fiber reinforced epoxy under reciprocating sliding[J]. Composites Part B:Engineering, 2016, 88:240-252.
[17] LIU N, WANG J Z, YANG J, et al. Chemical modification on UHMWPE microparticles to improve the interfacial and tribological properties of UHMWPE/carbon fabric/phenolic laminate in water environment[J]. Surface and Interface Analysis, 2016, 48(1):40-46.
[18] WANG J Z, LIU N, YANG J, et al. Combined effect of chemical surface treatment of Kevlar fabric and PTFE fillers on the water-involved tribological performance of Kevlar fabric/phenolic laminate[J]. Tribology Transactions 2016, 59(2):385-390.
[19] JIA J H, CHEN J M, ZHOU H D, et al. Friction and wear properties of bronze-graphite composite under water lubrication[J]. Tribology International, 2004, 37(5):423-429.
[20] ZHANG H A, HU X P, YAN J H, et al. Study of wear behavior of MoSi2 under water lubrication[J]. Materials Letters, 2005, 59(5):583-587.
[21] KIM H J, SHIN D G, KIM D E. Frictional behavior between silicon and steel coated with graphene oxide in dry sliding and water lubrication conditions[J]. International Journal of Precision Engineering and Manufacturing-green Technology, 2016, 3(1):91-97.
[22] HUANG W, LIU H Y, WANG X L. Comparisons of tribological properties of Ti (C, N)/SiC in water and seawater[J]. Journal of Tribology, 2015, 137(2):021603.
[23] SOKOLOFF L, LEE S L. Effect of aqueous cations on friction between rubber and glass[J]. Wear, 1983, 88(2):207-219.
[24] YAMAUCHI N, OKAMOTO A, TUKAHARA H, et al. Friction and wear of DLC films on 304 austenitic stainless steel in corrosive solutions[J]. Surface and Coatings Technology, 2003:174-175:465-469.
[25] 姜晓霞, 李诗卓, 李曙, 等. 金属的腐蚀磨损[M]. 北京:化学工业出版社, 2003:196-222.
[26] 王勇, 任平弟, 朱旻昊, 等. Ti6Al4V合金在Saline溶液中的微动腐蚀特性[J]. 润滑与密封, 2006(3):36-38.
[27] NOVAK S, KALIN M, KOSMAČ T. Chemical aspects of wear of alumina ceramics[J]. Wear, 2001, 250(1/12):318-321.
[28] KALIN M, NOVAK S, VIŽINTIN J. Wear and friction behavior of alumina ceramics in aqueous solutions with different pH[J]. Wear, 2003, 254(11):1141-1146.
[29] KALIN M, DRAŽIČ G, NOVAK S, et al. Wear mechanisms associated with the lubrication of zirconia ceramics in various aqueous solutions[J]. Journal of the European Ceramic Society, 2006, 26(3):223-232.
[30] DE OLIVEIRA R P, DOS SANTOS E, COUSSEAU T, et al. Effect of pH on wear and friction of silicon nitride sliding against alumina in water[J]. Tribology International, 2015, 90:356-361.
[31] LI J J, ZHANG C H, MA L R, et al. Superlubricity achieved with mixtures of acids and glycerol[J]. Langmuir, 2012, 29(1):271-275.
[32] LI J J, ZHANG C H, SUN L, et al. Tribochemistry and superlubricity induced by hydrogen ions[J]. Langmuir, 2012, 28(45):15816-15823.
[33] ZHANG T F, JIANG F, LIAO T T, et al. Tribological behavior of diamond like carbon film sliding against CoCrMo or Al2O3 in air and water environment[J]. Tribology International, 2016, 95:456-461.
[34] WANG Q Z, ZHOU F, GAO S, et al. Effect of counterparts on the tribological properties of TiCN coatings with low carbon concentration in water lubrication[J]. Wear, 2015:328-329; 356-362.
[35] ZHU C, JACOBS O, JASKULKA R, et al. Effect of counterpart material and water lubrication on the sliding wear performance of crosslinked and non-crosslinked ultra high molecular weight polyethylene[J]. Polymer Testing, 2004, 23(6):665-673.
[36] JACOBS O, JASKULKA R, YANG F, et al. Sliding wear of epoxy compounds against different counterparts under dry and aqueous conditions[J]. Wear, 2004, 256(1/2):9-15.
[37] DER GER M, HOU K H, WANG L M, et al. The friction and wear of Ni-P-PTFE composite deposits under water lubrication[J]. Materials Chemistry and Physics, 2002, 77(3):755-764.
[38] 周峰, 吴杨. "润滑"之新解[J]. 摩擦学学报, 2016, 36(1):132-136.

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