Korean Journal of Chemical Engineering, Vol.39, No.5, 1107-1134, May, 2022
Cutting fluid corrosion inhibitors from inorganic to organic: Progress and applications
E-mail:
Water-based cutting fluid has a broad application area and a hundred year history, but its poor corrosion inhibition and anti-rust ability limit its further promotion. Adding corrosion inhibitors can effectively solve the above problems. However, no review papers are available on cutting fluid corrosion inhibitors, and their mechanism, suitability, and performance influencing factors have not been revealed. This article discusses cutting fluid corrosion inhibitors to fill the gaps in theoretical research and industrial applications. Inorganic matters are initially used in corrosion inhibition due to their strong oxidizing properties. Therefore, the film formation mechanism of inorganic corrosion inhibitor oxide and precipitation film is first analyzed, and the applications in corrosive medium are summarized. Given that inorganic corrosion inhibitors are not environmentally friendly and expensive, organic corrosion inhibitors are currently used as replacement. Thus, the film formation mechanism of different organic corrosion inhibitors adsorption film is analyzed, and their suitability with metals is determined. The influence of molecular structure and temperature on their corrosion inhibition effect is also studied, and the performance of inorganic and organic corrosion inhibitors is compared. However, single organic corrosion inhibitors are greatly affected by metal surface state, temperature, and immersion time. Therefore, the synergistic film formation after the compounding of organic and inorganic corrosion inhibitors is analyzed. In addition, the influence rate of concentration, molecular structure, and temperature on corrosion inhibition performance is revealed, and a matching database of corrosion inhibitor type and metal type in cutting is established. Finally, in view of the limitations of cutting fluid corrosion inhibitors, the establishment of a molecular dynamics model of corrosion inhibitor failure and accelerates corrosion and the development of general-purpose green additives based on the molecular design and physical and chemical analysis of the suitability of corrosion inhibitor and base liquid are prospected.
- Wickramasinghe KC, Sasahara H, Erween AR, Perera GIP, J. Clean Prod., 257, 120552 (2020)
- Duan ZJ, Li CH, Ding WF, Zhang YB, Yang M, Gao T, Cao H, Xu XF, Wang DZ, Mao C, Chin. J. Mech. Eng-en, 34, 1 (2021)
- Zhang YB, Li CH, Ji HJ, Yang XH, Yang M, Jia DZ, Zhang XP, Li RZ, Wang J, Int. J. Mach. Tool. Manu., 122, 67 (2017)
- Yan P, Rong YM, Wang G, P. I. Mech. Eng. P-J Spo., 230, 19 (2016)
- Zhang XP, Li CH, Zhang YB, Wang YG, Li BK, Yang M, Guo SM, Liu GT, Zhang NQ, Precis. Eng., 47, 532 (2017)
- Wu X, Li C, Zhou Z, Nie X, Chen Y, Zhang Y, Cao H, Liu B, Zhang N, Said Z, Int. J. Adv. Manuf. Tech., 117, 2565 (2021)
- Cui X, Li CH, Zhang YB, Jia DZ, Zhao YJ, Li RZ, Cao HJ, Int. J. Adv. Manuf. Tech., 104, 3943 (2019)
- Tang LZ, Zhang YB, Li CH, Zhou ZM, Nie XL, Chen Y, Cao HJ, Liu B, Zhang NQ, Said Z, Debnath S, Jamil M, Ali HM, Sharma S, Chin. J. Mech. Eng., 35, 3 (2022)
- Wang XM, Li CH, Zhang YB, Ding W, Yang M, Gao T, Cao H, Xu X, Said Z, Debnath S, Jamil M, Ali HM, J. Manuf. Process., 59, 76 (2020)
- Yang M, Li C, Said Z, Zhang Y, Li R, Debnath S, Ali HM, Gao T, Long Y, J. Manuf. Process., 71, 501 (2021)
- Lawal SA, Choudhury IA, Nukman Y, Int. J. Mach. Tool. Manu., 52, 1 (2012)
- Gao T, Li CH, Jia DZ, Zhang YB, Yang M, Wang XM, Cao HJ, Li RZ, Ali HM, Xu XF, J. Clean Prod., 277, 123328 (2020)
- Kuram E, Ozcelik B, Demirbas E, Environmentally friendly machining: vegetable based cutting fluids, Springer, Berlin (2013).
- Said Z, Sharma P, Sundar LS, Afzal A, Li C, J. Mol. Liq., 340, 117291 (2021)
- Said Z, Sundar LS, Rezk H, Nassef AM, Chakraborty S, Li C, J. Mol. Liq., 330, 115659 (2021)
- Soori M, Asmael M, J. New. Technol. Mater., 11, 47 (2021)
- Pandey K, Datta S, Mater. Today. Proc., 44, 2710 (2021)
- Li BK, Li CH, Zhang YB, Wang YG, Jia DZ, Yang M, Zhang NQ, Wu QD, Han ZG, Sun K, J. Clean Prod., 154, 1 (2017)
- Guo SM, Li CH, Zhang YB, Wang YG, Li BK, Yang M, Zhang XP, Liu GT, J. Clean Prod., 140, 1060 (2017)
- Wang YG, Li CH, Zhang YB, Yang M, Li BK, Jia DZ, Hou YL, Mao C, J. Clean Prod., 127, 487 (2016)
- Yang M, Li CH, Zhang YB, Wang YG, Li BK, Jia DZ, Hou YL, Li RZ, Appl. Therm. Eng., 126, 525 (2017)
- Ahmed W, Hegab H, Kishawy HA, Mohany A, J. Manuf. Process., 61, 100 (2021)
- Gao T, Li CH, Zhang YB, Yang M, Jia DZ, Jin T, Hou YL, Li RZ, Tribol. Int., 131, 51 (2019)
- Yang M, Li CH, Zhang YB, Jia DZ, Li RZ, Hou YL, Cao HJ, Int. J. Adv. Manuf. Tech., 102, 2617 (2019)
- Raja PB, Ismail M, Ghoreishiamiri S, Mirza J, Ismail MC, Kakooei S, Rahim AA, Chem. Eng. Commun., 203, 1145 (2016)
- Wickramasinghe K, Sasahara H, Abd Rahim E, Perera G, J. Clean Prod., 257, 120552 (2020)
- Zhang S, Zhang T, He Y, Liu D, Wang J, Du X, Ma B, J. Alloy. Compd., 789, 460 (2019)
- Park D, Stewart PA, Coble JB, J. Occup. Environ. Hyg., 6, 530 (2009)
- Lin B, Tang JL, Wang YY, Wang H, Zuo Y, Molecules, 25, 4200 (2020)
- Becket GJ, Corrosion Causes and Cures, CRC Press, Boca Raton (2017).
- Xiang Y, Wang Z, Li Z, Ni WD, Corros. Eng. Sci. Techn., 48, 121 (2013)
- Ma S, Kim K, Huh J, Lee S, Hong Y, Sep. Purif. Technol., 199, 289 (2018)
- Tang Z, Curr. Opin. Solid. St. M., 23, 100759 (2019)
- Umoren SA, Solomon MM, Obot IB, Suleiman RK, J. Ind. Eng. Chem., 76, 91 (2019)
- Gajrani KK, Suvin P, Kailas SV, Sankar MR, J. Clean Prod., 206, 108 (2019)
- Talon AG, Lopes JC, Tavares AB, Sato BK, Rodrigues AR, Genovez MC, Pinto TAD, de Mello HJ, Aguiar PR, Bianchi EC, Int. J. Adv. Manuf. Tech., 104, 1437 (2019)
- Talon AG, Lopes JC, Sato BK, Tavares AB, Ribeiro FSF, Genovez MC, Pinto TAD, de Mello HJ, Aguiar PR, Bianchi EC, Int. J. Adv. Manuf. Tech., 108, 2741 (2020)
- Sani ASA, Abd Rahim E, Sharif S, Sasahara H, J. Clean Prod., 209, 947 (2019)
- Goyal M, Kumar S, Bahadur I, Verma C, Ebenso EE, J. Mol. Liq., 256, 565 (2018)
- Zhao XD, Yang J, Fan XQ, Appl. Mech. Mater., 44, 4063 (2011)
- Choi YW, Shin S, Park DW, Choi J, Curr. Appl. Phys., 14, 641 (2014)
- Liu Q, Song Z, Han H, Donkor S, Jiang L, Wang W, Chu H, Constr. Build. Mater., 260, 119695 (2020)
- Chen S, Zhu B, Liang X, Int. J. Electrochem. Sc., 15, 1 (2020)
- Fei FL, Hu J, Wei JX, Yu QJ, Chen ZS, Constr. Build. Mater., 70, 43 (2014)
- Li WG, Yuan B, He GN, Jia QB, Appl. Chem. Ind., 46, 1752 (2017)
- Manh T, Hien P, Nguyen Q, Quyen T, Hinton B, Nam N, J. Taiwan. Inst. Chem. E, 103, 177 (2019)
- Harb MB, Abubshait S, Etteyeb N, Kamoun M, Dhouib A, Arab. J. Chem., 13, 4846 (2020)
- Zhu Y, Sun Q, Wang Y, Tang J, Wang Y, Wang H, Corrosion Sci., 185, 109414 (2021)
- Li Q, Zhang D, Hu S, Chen Z, Guo X, Mater. Chem. Phys., 243, 122592 (2020)
- Zhang ZG, Guo D, Zhou HF, Zhang LQ, Mater. Prot., 48, 40 (2015)
- Cockburn A, Brambilla G, Fernández ML, Arcella D, Bordajandi LR, Cottrill B, van Peteghem C, Dorne JL, Toxicol. Appl. Pharmacol., 270, 209 (2013)
- Kondo K, Tsuboi M, Soejima S, Kawakita N, Toba H, Kawakami Y, Yoshida M, Takizawa H, Tangoku A, J. Thorac. Oncol., 14, S691 (2019)
- Deyab MA, J. Power Sources, 292, 66 (2015)
- Wu B, Wan J, Zhang Y, Pan B, Lo IMC, Environ. Sci. Technol., 54, 50 (2019)
- Kartsonakis IA, Stanciu SG, Matei AA, Hristu R, Karantonis A, Charitidis CA, Corrosion Sci., 112, 289 (2016)
- Mu G, Li X, Qu Q, Zhou J, Corrosion Sci., 48, 445 (2006)
- Stranick AM, Corrosion, 40, 296 (2012)
- Mehra R, Soni A, Chem. Eng. Commun., 191, 1502 (2004)
- Zhou Y, Zuo Y, Lin B, Mater. Chem. Phys., 192, 86 (2017)
- Lin B, Zuo Y, Molecules, 24, 518 (2019)
- Ran WB, Ma FY, Liu JM, Contemp. Chem. Ind., 39, 501 (2010)
- Zhang P, Chen YJ, Huang HJ, Zhou Y, Yan F, Nie GC, Surf. Rev. Lett., 27, 1950179 (2020)
- Jakab M, Presuel-Moreno F, Scully JR, Corrosion, 61, 246 (2005)
- Kim KT, Chang HY, Lim BT, Park HB, Kim YS, Corros. Eng. Sci. Techn., 16, 31 (2017)
- Tommaselli M, Mariano N, Kuri S, Constr. Build. Mater., 23, 328 (2009)
- Deyab M, El-Rehim AS, Electrochim. Acta, 53, 1754 (2007)
- Addi BA, Addi AA, Shaban A, Addi EHA, Hamdani M, Mediterr. J. Chem., 10, 465 (2020)
- Lian JX, Zhang XL, Yang J, Jia XM, Cem. Carbide, 27, 153 (2010)
- Tan YT, Wijesinghe SL, Blackwood DJ, J. Electrochem. Soc., 163, C649 (2016)
- Zhou Y, Zuo Y, Lin B, Mater. Chem. Phys., 192, 86 (2017)
- Bensabra H, Franczak A, Aaboubi O, Azzouz N, Chopart JP, Metall. Mater. Trans. A-Phys. Metall. Mater. Sci., 48, 412 (2017)
- Wang D, Wu M, Ming J, Shi J, Constr. Build. Mater., 270, 121463 (2021)
- Yee K, Kee K, Hassas S, Ismail M, J. Eng. Sci. Technol., 14, 2431 (2019)
- Wang J, Sheng XB, Liang Z, Chen ZL, Sheng YY, J. Univ. Shanghai Sci. Technol., 36, 181 (2014)
- Liu FZ, J. Coat. Res., 93, 397 (2019)
- Kandemirli F, Sagdinc S, Corrosion Sci., 49, 2118 (2007)
- Zheng CB, Cai L, Tang ZJ, Shen XL, Surf. Coat. Technol., 287, 153 (2016)
- Gaber GA, Aly HA, Mohamed LZ, Int. J. Electrochem. Sc., 15, 8229 (2020)
- Subedi DB, Pokharel DB, Bhattarai J, Int. J. Metall. Alloys, 6, 25 (2020)
- Javidi M, Omidvar R, J. Mol. Liq., 291, 111330 (2019)
- Deepak VK, Jagadeesh B, Int. J. Adv. Eng. Sci. Ap., 4, 183 (2016)
- Gao YB, Hu J, Zuo J, Liu Q, Zhang H, Dong SG, Du RG, Lin CJ, J. Electrochem. Soc., 162, C555 (2015)
- Huang L, Xu XE, Wang WQ, Surf. Technol., 43, 25 (2014)
- Zhang J, Zhang L, Tao G, Cui F, Int. J. Electrochem. Sci., 13, 6523 (2018)
- Sanni SE, Ewetade AP, Emetere ME, Agboola O, Okoro E, Olorunshola SJ, Olugbenga TS, Mater. Today. Commun., 19, 238 (2019)
- Gao H, Li Q, Chen F, Dai Y, Luo F, Li L, Corrosion Sci., 53, 1401 (2011)
- Mohammed SJAKEJK, Al-Khwarizmi Engineering J., 14, 123 (2018)
- Yuan MR, Lu JT, Kong G, Surf. Coat. Technol., 204, 1229 (2010)
- Li GY, Yang D, Lubric. Eng., 38, 70 (2013)
- Wang C, Chen JX, Hu BS, Liu ZY, Wang CB, Han J, Su M, Li YH, Li CL, J. Clean Prod., 238, 117823 (2019)
- Cheng WJ, He Q, Ye YJ, Mod. Chem. Ind., 36, 117 (2016)
- Zheng T, Wang L, Liu J, Wang J, Jia G, Colloids Surf. A: Physicochem. Eng. Asp., 610, 125723 (2021)
- Salasi M, Shahrabi T, Roayaei E, Aliofkhazraei MJMC, Mater. Chem. Phys., 104, 183 (2007)
- Ming TY, Sun J, Yang JW, Li SQ, Met. Mater. Metall. Eng., 45, 11 (2017)
- Li Y, Yi SZ, Wu JQ, Mater. Prot., 44, 31 (2011)
- Li C, Sun Z, Kang M, Yan Z, Tan Z, Li Q, Wang W, Tang M, Li G, Feng Z, Int. J. Electrochem. Sc., 16, 2 (2021)
- Mainier FB, Figueiredo AA, de Freitas AER, de Alencar Junior AAM, J. Environ. Prot., 7, 2025 (2016)
- Salami B, Afshar A, Mazaheri A, J. Magn. Alloy., 2, 72 (2014)
- Ma J, Wang G, Li Y, Li W, Ren F, J. Mater. Eng. Perform., 27, 2247 (2018)
- Awizar DA, Othman NK, Jalar A, Daud AR, Rahman IA, Al-Hardan NH, Int. J. Electrochem. Sc., 8, 1759 (2013)
- Glover CF, Lim MLC, Scully JR, Corrosion, 77, 40 (2021)
- Dagdag O, Guo L, Safi Z, Verma C, Ebenso EE, Wazzan N, Masroor S, Haldhar R, Jodeh S, Gouri ME, J. Mol. Liq., 317, 114249 (2020)
- Shahzad K, Fayyad EM, Nawaz M, Fayyaz O, Shakoor RA, Hassan MK, Umer MA, Baig MN, Raza A, Abdullah AM, Nanomaterials-basel, 10, 1932 (2020)
- Bhuvaneshwari B, Vivekananthan S, Sathiyan G, Palani G, Iyer NR, Rai PK, Mondal K, Gupta RK, J. Alloy. Compd., 816, 152545 (2020)
- Wu S, Zhang Q, Sun D, Luan J, Shi H, Hu S, Tang Y, Wang H, Chem. Eng. J., 383, 123162 (2020)
- Calado LM, Taryba MG, Morozov Y, Carmezim MJ, Montemor MF, Corrosion Sci., 170, 108648 (2020)
- Li L, Zhang X, Gong S, Zhao H, Bai Y, Li Q, Ji L, Corrosion Sci., 99, 76 (2015)
- Tang Y, Yang X, Yang W, Wan R, Chen Y, Yin X, Corrosion Sci., 52, 1801 (2010)
- Gattinoni C, Michaelides A, Faraday Discuss., 180, 439 (2015)
- Sun C, Qian YL, Xu CM, Indian. J. Occup. Envir., 34, 927 (2017)
- Shang W, He C, Wen Y, Wang Y, Zhang Z, Rsc. Adv., 6, 113967 (2016)
- Shang W, He CB, Wen YQ, Wang YY, Zhang Z, Rsc. Adv., 6, 113967 (2016)
- Liu RF, Chen YX, Shang XQ, Liang SY, Chen YF, Chem. Ind. Eng. Prog., 31, 1857 (2012)
- Li W, Ma H, Li GS, Mater. Prot., 48, 21 (2015)
- Xu H, Sun M, Xu XN, Lubric. Eng., 44, 147 (2019)
- Liang QQ, Jia XM, Cem. Carbide., 29, 221 (2012)
- Jia XM, Zhang XL, Hou SX, Adv. Sci. Lett., 4, 1352 (2011)
- Zhou Y, Huang JL, Cai JS, Peng ZC, Miao CW, Chin. J. Highw. Transp., 33, 195 (2020)
- Wysocka J, Cieslik M, Krakowiak S, Ryl J, Electrochim. Acta, 289, 175 (2018)
- Liu LC, Wen S, Lv Y, Lubric. Eng., 9, 102 (2020)
- Li GY, Meng Y, Ma XG, Lubric. Eng., 33, 45 (2008)
- Xiong HQ, Li MS, Zeng HY, Jia JX, Lubric. Eng., 38, 113 (2013)
- Zhang MM, Li QY, Liu G, Chem. Adhes., 37, 337 (2015)
- Mezger J, Peretolchin M, Flores-Figueroa A, Hansch M, Voelkel L, Castro IG, Muehlbach K, Boehnke H, US Patent, 10240100B2 (2019).
- Li Y, Yu J, Lubric. Oil., 29, 16 (2014)
- Snyder JA, Khadilkar CS, US Patent, 20,200,115,805 (2020).
- Kirsch GJ, US Patent, 20,180,291,301 (2018).
- Lei H, Li QH, CN Patent (Chinese), 106118834B (2019).
- Gan WL, Cheng WM, Li X, Yi SZ, Zhang Y, Yang J, Lubric. Eng., 44, 132 (2019)
- Wu ZH, Chen WN, Technol. Dev. Chem. Ind., 41, 30 (2012)
- Zhou YQ, Yi Y, Huang Z, She T, Xu YY, He D, J. Wuhan Univ. Technol., 35, 50 (2013)
- Wang CH, Hou WG, Tian QJ, Wamh ZY, Cao XC, Bearing., 5, 10 (2011)
- Kasshanna S, Rostron P, J. Mater. Environ. Sci., 8, 4292 (2017)
- Zhang L, Yi SZ, Shi RZ, Jiao B, Lubric. Eng., 39, 100 (2014)
- Zhao HY, Neville A, Morina A, Vickerman R, Durham J, Tribol. Int., 46, 62 (2012)
- Khalkar S, Bhowmick D, Pratap A, J. Oleo. Sci., 62, 901 (2013)
- Li J, Gong QY, Zhou J, Fu SQ, CN Patent (Chinese), 200610119337.X (2007).
- Ding YH, CN Patent (Chinese), 201310609008.3 (2014).
- Liu J, Liu W, Zhou HY, Lubric. Eng., 39, 119 (2014)
- Song YY, Yang ZH, Ren R, Wu M, Liu J, Chem. Eng., 29, 13 (2015)
- Jiang HZ, Tao DH, Wang B, Lubric. Eng., 2, 72 (2005)
- Hao XJ, Wang B, Shandong Chem. Ind., 046, 36 (2017)
- Sun WJ, Li H, He RX, J. Southwest Univ., Nat. Sci. Ed., 40, 157 (2018)
- Zhang HQ, Jia XM, Wang F, Key Eng. Mater., 416, 381 (2009)
- Fu GY, Wu YZ, Zhang XL, Yu LY, Wang ZL, Coal. Min. Mach., 37, 44 (2016)
- Cheng XX, Jia XM, Song YX, Zhang XL, Cem. Carbide., 28, 45 (2011)
- Shirazi Z, Keshavarz MH, Esmaeilpour K, Golikand AN, Prot. Met. Phys. Chem., 53, 359 (2017)
- Liu L, Peng D, Zhang YP, Zhang Q, Chem. Res. Appl., 28, 234 (2016)
- Xiong S, Si J, Sun JL, Wu H, Dong HC, Chang C, Anticorros. Method. M., 67, 214 (2020)
- Huang L, Shen J, Ren J, Meng QJ, Yu Q, Chin. Sci. Bull., 16, 2171 (2000)
- Liu X, Meng YB, Ma XM, Hu ZY, Chemistry, 79, 164 (2016)
- El Ashry ESH, El Nemr A, Esawy SA, Ragab S, Electrochim. Acta, 51, 3957 (2006)
- Liu L, Pan XN, Zhang Q, Qian JH, Acta Chim. Sin., 65, 4039 (2014)
- Liu NN, Sun JL, Xia L, Zeng YF, Acta. Phys. Sin., 62, 159 (2013)
- Lin W, Lin HT, Jiang HB, Jiang H, CN Patent (Chinese), 201310245063.9 (2013).
- Scherer M, PCT Patient, EP2015/054390 (2016).
- Kuznetsov YI, Int. J. Corros. Scale. I., 7, 271 (2018)
- Turano M, Walker M, Grillo F, Gattinoni C, Edmondson J, Adesida O, Hunt G, Kirkman P, Richardson N, Baddeley C, Appl. Surf. Sci., 570, 151206 (2021)
- Kumari R, Nayak J, Shetty AN, Anti-corros. Method. M., 61, 241 (2014)
- Lu S, Ren ZB, Xie JY, Liu L, J. Chin. Soc. Corros. Prot., 40, 577 (2020)
- Liang YJ, Tang YZ, Wu J, Chen YX, Machinery, 56, 64 (2018)
- Wei ZL, Shao TF, Dong Y, Yang C, Lubric. Eng., 38, 102 (2013)
- Singh AK, Anand ON, Gupta AK, US Patent, 20,110,237,471 (2011).
- Zhang J, Meng Y, Light. Metals., 04, 55 (2011)
- Fan M, Du X, Ma L, Wen P, Zhang S, Dong R, Sun W, Yang D, Zhou F, Liu W, Tribol. Int., 130, 317 (2019)
- Li SZ, Fu WQ, Fen CL, Environ. Eng., 36, 180 (2018)
- Saillenfait AM, Ndaw S, Robert A, Sabaté JP, Arch. Toxicol., 92, 2749 (2018)
- Zhang GC, Ma T, Ge JJ, Qi N, Acta Pet. Sin. Pet. Process. Sect., 2, 45 (2005)
- Li GY, Yang D, Zhang MM, Lubric. Eng., 39, 96 (2014)
- He L, Liu CH, CN Patent (Chinese), 201610591666.8 (2019).
- Liu TF, Wang Y, Ma P, Dai YJ, Pet. Products Appl. Res., 38, 20 (2020)
- Chen ZZ, Zhang CL, Ma L, Zhang J, Lang X, Lubric. Eng., 45, 136 (2020)
- Katna R, Singh K, Agrawal N, Jain S, Mater. Manuf. Process., 32, 1522 (2017)
- Cheng C, Phipps D, Alkhaddar RM, Water. Res., 39, 4051 (2005)
- Sui MH, Li CH, Wu WT, Yang M, Ali HM, Zhang YB, Jia DZ, Hou YL, Li RZ, Cao HJ, J. Therm. Sci. Eng. A, 13, 051001 (2021)
- Gao T, Li CH, Yang M, Zhang YB, Jia DZ, Ding WF, Debnath S, Yu TB, Said Z, Wang J, J. Mater. Process. Technol., 290, 116976 (2021)
- Yang FW, Huang JM, Zhang GJ, Zhang CX, Sun DL, Gao NF, Yi SZ, Ind. Lubr. Tribol., 68, 569 (2016)
- G. B. Yang, Z. M. Zhang, G. H. Li, J. F. Zhang, L. G. Yu and P.Y. Zhang, J. Tribol.-Trans. ASME, 133, 0218011 (2011)
- Guo S, Liu L, Xia M, Kang L, Huang Q, Li C, Wang X, Lin Z, Chen C, Inorg. Chem., 55, 6586 (2016)
- Parker TG, Chown AL, Beehler A, Pubbi D, Cross JN, Albrecht-Schmitt TE, Inorg. Chem., 54, 570 (2015)
- Yagupov S, Strugatsky M, Seleznyova K, Mogilenec Y, Milyukova E, Maksimova E, Nauhatsky I, Drovosekov A, Kreines N, Kliava J, J. Magn. Magn. Mater., 417, 338 (2016)
- Cui J, Yang Y, Li X, Yuan W, Pei Y, ACS Appl. Mater. Interfaces, 10, 4183 (2018)
- Zheng Z, Shen GQ, Wan Y, Cao LL, Xu XD, Yue QX, Sun TJ, Wear, 222, 135 (1998)
- Li Z, Zhang Y, Ren T, Zhao Y, P. I. Mech. Eng. J-J. Eng., 228, 770 (2014)
- Tian Y, China. Pet. Process. Pe., 22, 37 (2020)
- Wang YJ, Zhong JC, Wang HZ, Mater. Prot., 46, 29 (2013)
- Wang Y, Li J, He Z, Ren T, P. I. Mech. Eng. J-J. Eng., 222, 133 (2008)
- Meng Y, Wang RF, Chen MM, Synth. Lubr., 39, 12 (2012)
- Li DC, CN Patent (Chinese), 201410070132.1 (2019).
- Liu J, Song YY, Chem. Eng., 12, 54 (2015)
- Yuan B, Yi SZ, Du TY, Lubric. Eng., 40, 99 (2015)
- Eddy NO, Odoemelam SA, Ama IN, Green. Chem. Lett. Rev., 3, 165 (2010)
- Abidli I, Souissi N, Novoa XR, Rev. Roum. Chim., 65, 353 (2020)
- Onen AI, Nwufo BT, Ebenso EE, E-J. Chem., 8, 1708 (2011)
- Singh A, Ahamad I, Quraishi MA, Arab. J. Chem., 9, S1584 (2016)
- Chaubey N, Savita, Qurashi A, Chauhan DS, Quraishi MA, J. Mol. Liq., 321, 114385 (2021)
- Salleh SZ, Yusoff AH, Zakaria SK, Taib MAA, Seman AA, Masri MN, Mohamad M, Mamat S, Sobri SA, Ali A, J. Clean Prod., 304, 127030 (2021)
- Popoola LT, Corros. Rev., 37, 71 (2019)
- Kim KT, Chang HY, Lim BT, Park HB, Kim YS, Adv. Mater. Sci. Eng., 2016, 1 (2016)
- Kim KT, Chang HY, Lim BT, Park HB, Kim YS, Corros. Sci. Technol-K., 15, 171 (2016)
- Kim KT, Chang HY, Lim BT, Park HB, Kim YS, Corros. Sci. Technol-K., 16, 31 (2017)
- Gao YB, Hu J, Zuo J, Liu Q, Zhang H, Dong SG, Du RG, Lin CJ, J. Electrochem. Soc., 162, C555 (2015)
- Lim B, Kim K, Chang H, Park H, Kim Y, Metals, 10, 1597 (2020)
- Hu J, Wang Z, Wang TT, Xu PY, Li N, Mol. Simul., 45, 927 (2019)
- Wu F, Liu X, Xiao X, Au CT, Mater. Performance, 55, 42 (2016)