In the field of industrial lubrication, water-soluble lubricant additives determine the performance of water-based lubrication system. In recent years, some new water-based lubricant additives with special structure and composition show excellent performance and broad application prospects. Research and development of high-performance water-soluble lubricant additives is the key to improve the comprehensive performance of water-based lubricants and broaden their application range. The research status and characteristics of water-soluble lubricant additives at home and abroad were analyzed, and the research and application of water-soluble lubricant additives such as carboxylic acid and its salts, water-soluble organic metal lubricant additives, water-soluble lubricant additives containing active elements such as sulfur and phosphorus, boron-containing water-soluble lubricant additives and nano-water-soluble lubricant additives at home and abroad were introduced in detail. At the same time, combined with the complexity of compatibility of water-soluble lubricant additives and the limitations of remaining in the stage of experimental synthesis and theoretical exploration, the multi-functional development trend of water-soluble lubricant additives integrating lubrication, rust prevention and biodegradation was analyzed and predicted. The problems existing in the current research are analyzed, and the development trend is prospected. It is suggested that the research on water-soluble lubricating additives should be strengthened to further improve the performance of these additives.
| Published in | Science Journal of Chemistry (Volume 10, Issue 4) |
| DOI | 10.11648/j.sjc.20221004.13 |
| Page(s) | 116-119 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Water Solubility, Lubrication Additives, Research Status, Development Trend
| [1] | Wu Zhenping, Wang Ping, Wang Weimin, etc. Application of hydraulic fluid for hydraulic support of electro-hydraulic control system in coal mine [J]. Coal science and technology, 2003, 33 (4): 73-76. |
| [2] | Xu Haixia, Wang Yimin, Yao Yuanshu, etc. Research on concentrate for new synthetic hydraulic support [J]. Journal of Coal, 2004, 29 (4): 24. |
| [3] | Paragraphs, official documents, super Jun. Effect of metal complex structure on the performance of water-based lubricant additives [J]. Lubricating and sealing, 1997 (4): 42. |
| [4] | Gong Fayang, Gou Lianquan, Qian Yanning. Status and Development of Water Soluble Lubrication Additives [J]. Synthetic Lubrication Materials, 2005, 32 (4): 29-33. |
| [5] | Li Huafeng, Chen Guoxu, Dong Junfeng. Present Situation and Development Trend of Water Soluble Lubrication Additives [J]. Synthetic Lubrication Materials, 1998 (2): 15-17. |
| [6] | Zhou Zhong, Mei Huanmou. Three new water-soluble lubricating additives [J]. Lubricating oil, 1999, 14 (1): 57-58. |
| [7] | Mathiesen T. Modified TMP Esters Asmultifunctional Additives in Metalworking Fluids [J]. Synthetic Lubrication, 1998 (4): 381-390. |
| [8] | Huang Weijiu, Tan Aideqiang, Wang Huapei. Overview of Water - soluble Lubrication Additives [J]. Lubrication and Seal, 2002, (1): 72-75. |
| [9] | Mei Huanmou, Li Ping, Li Shaoyin, Guo Dongcai, Shen Yanliang. Organic Molybdenum Series Water Soluble Lubrication Additives [J]. Fine Petrochemicals, 1997, (3): 13-14. |
| [10] | Guan Wenchao, Lei Hong. Study on water soluble multifunctional antiwear lubricant OPMZ containing Mo and Zn [J]. Lubrication and sealing, 1995 (3): 41-45. |
| [11] | Guanwenchao. A new type of high performance sulfur extreme pressure agent in water-based lubrication [J]. Lubricating and sealing, 2001 (1): 18-20. |
| [12] | Guan Wenchao, Lei Hong. Analysis and research on the lubricating film formed by water-soluble alkyl zinc thiophosphate on the surface of steel ball mill. Journal of Tribology, 1998 (1): 75-79. |
| [13] | Lin Feng, Tao Dehua, Li Chenglie. Synthesis and Hydrolytic stability of aqueous antiwear of organic phosphate [J]. Syn, Lubr, 1997, 13 (3): 275-280. |
| [14] | Wei Shaohua, Huang Deyin. Research and application status and development trend of boron surfactants [J]. Fine chemical industry, 2002, 19 (9): 505-505. |
| [15] | Watanabe S, Para. alkoxybenzoic acids as additives in water-based cutting fluids [J]. of Materials Science Letters, 1992, (11): 498-500. |
| [16] | Zhang Xiuling, Wang Baozhong. Synthesis of Polymethacrylate Boron-containing Water-based Lubricants [J]. Journal of Hebei Institute of Technology, 2002, (4): 44-46. |
| [17] | Li Dongbin, Lu Chunxu. Synthesis and surface activity of alkyl borate diethanolamine surfactants [J]. Daily chemical industry, 2005, 35 (1): 12-18. |
| [18] | Wang Haiying, Li Bindong, Lin Weina, Lu Chunxu. Synthesis and properties of a novel polymeric borate surfactant PBE [J]. Applied chemistry, 2007, 24 (3): 340-344. |
| [19] | Gao Yongjian, Zhang Zhijun. Friction and wear properties of GCr15 steel lubricated by oleic acid modified TiO2 nanoparticles aqueous solution [J]. Journal of tribology, 2000 (1): 22-25. |
| [20] | Lei Hong, official. Tribological behavior of water-soluble C60-vinylpyrrolidone nm microspheres [J]. Journal of Huazhong University of Technology, 2000, 28 (7): 98-101. |
| [21] | Guan Wenchao, Shen Chunying. Synthesis and lubricity of fullerene-itaconic acid copolymer [J]. Material protection, 2002 (2): 15-16. |
| [22] | Jiang Guichang, official super. Synthesis and tribological properties of fullerene-styrene-methacrylic acid terpolymer [J]. Application chemistry, 2003 (11): 1044-1047. |
| [23] | Liu Zhong, Mei Huanmou, Li Maosheng. Molecular design of water-soluble lubricant additives [J]. Lubricating and sealing, 1995, (3): 31-35. |
APA Style
Yifang Liu, Xinnan Zhao. (2022). Research Progress Trend of Water-Soluble Lubricating Additives. Science Journal of Chemistry, 10(4), 116-119. https://doi.org/10.11648/j.sjc.20221004.13
ACS Style
Yifang Liu; Xinnan Zhao. Research Progress Trend of Water-Soluble Lubricating Additives. Sci. J. Chem. 2022, 10(4), 116-119. doi: 10.11648/j.sjc.20221004.13
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Download@article{10.11648/j.sjc.20221004.13,
author = {Yifang Liu and Xinnan Zhao},
title = {Research Progress Trend of Water-Soluble Lubricating Additives},
journal = {Science Journal of Chemistry},
volume = {10},
number = {4},
pages = {116-119},
doi = {10.11648/j.sjc.20221004.13},
url = {https://doi.org/10.11648/j.sjc.20221004.13},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.sjc.20221004.13},
abstract = {In the field of industrial lubrication, water-soluble lubricant additives determine the performance of water-based lubrication system. In recent years, some new water-based lubricant additives with special structure and composition show excellent performance and broad application prospects. Research and development of high-performance water-soluble lubricant additives is the key to improve the comprehensive performance of water-based lubricants and broaden their application range. The research status and characteristics of water-soluble lubricant additives at home and abroad were analyzed, and the research and application of water-soluble lubricant additives such as carboxylic acid and its salts, water-soluble organic metal lubricant additives, water-soluble lubricant additives containing active elements such as sulfur and phosphorus, boron-containing water-soluble lubricant additives and nano-water-soluble lubricant additives at home and abroad were introduced in detail. At the same time, combined with the complexity of compatibility of water-soluble lubricant additives and the limitations of remaining in the stage of experimental synthesis and theoretical exploration, the multi-functional development trend of water-soluble lubricant additives integrating lubrication, rust prevention and biodegradation was analyzed and predicted. The problems existing in the current research are analyzed, and the development trend is prospected. It is suggested that the research on water-soluble lubricating additives should be strengthened to further improve the performance of these additives.},
year = {2022}
}
TY - JOUR T1 - Research Progress Trend of Water-Soluble Lubricating Additives AU - Yifang Liu AU - Xinnan Zhao Y1 - 2022/07/26 PY - 2022 N1 - https://doi.org/10.11648/j.sjc.20221004.13 DO - 10.11648/j.sjc.20221004.13 T2 - Science Journal of Chemistry JF - Science Journal of Chemistry JO - Science Journal of Chemistry SP - 116 EP - 119 PB - Science Publishing Group SN - 2330-099X UR - https://doi.org/10.11648/j.sjc.20221004.13 AB - In the field of industrial lubrication, water-soluble lubricant additives determine the performance of water-based lubrication system. In recent years, some new water-based lubricant additives with special structure and composition show excellent performance and broad application prospects. Research and development of high-performance water-soluble lubricant additives is the key to improve the comprehensive performance of water-based lubricants and broaden their application range. The research status and characteristics of water-soluble lubricant additives at home and abroad were analyzed, and the research and application of water-soluble lubricant additives such as carboxylic acid and its salts, water-soluble organic metal lubricant additives, water-soluble lubricant additives containing active elements such as sulfur and phosphorus, boron-containing water-soluble lubricant additives and nano-water-soluble lubricant additives at home and abroad were introduced in detail. At the same time, combined with the complexity of compatibility of water-soluble lubricant additives and the limitations of remaining in the stage of experimental synthesis and theoretical exploration, the multi-functional development trend of water-soluble lubricant additives integrating lubrication, rust prevention and biodegradation was analyzed and predicted. The problems existing in the current research are analyzed, and the development trend is prospected. It is suggested that the research on water-soluble lubricating additives should be strengthened to further improve the performance of these additives. VL - 10 IS - 4 ER -
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