Abstract
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.
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References
K. C. Wickramasinghe, H. Sasahara, A. Rahim Erween and G. I. P. Perera, J. Clean. Prod., 257, 120552 (2020).
Z. J. Duan, C. H. Li, W. F. Ding, Y. B. Zhang, M. Yang, T. Gao, H. Cao, X. F. Xu, D. Z. Wang and C. Mao, Chin. J. Mech. Eng-en, 34, 1 (2021).
Y. B. Zhang, C. H. Li, H. J. Ji, X. H. Yang, M. Yang, D. Z. Jia, X. P. Zhang, R. Z. Li and J. Wang, Int. J. Mach. Tool. Manu., 122, 67 (2017).
P. Yan, Y. M. Rong and G. Wang, P. I. Mech. Eng. P-J Spo., 230, 19 (2016).
X. P. Zhang, C. H. Li, Y. B. Zhang, Y. G. Wang, B. K. Li, M. Yang, S. M. Guo, G. T. Liu and N. Q. Zhang, Precis. Eng., 47, 532 (2017).
X. Wu, C. Li, Z. Zhou, X. Nie, Y. Chen, Y. Zhang, H. Cao, B. Liu, N. Zhang and Z. Said, Int. J. Adv. Manuf. Tech., 117, 2565 (2021).
X. Cui, C. H. Li, Y. B. Zhang, D. Z. Jia, Y. J. Zhao, R. Z. Li and H. J. Cao, Int. J. Adv. Manuf. Tech., 104, 3943 (2019).
L. Z. Tang, Y. B. Zhang, C. H. Li, Z. M. Zhou, X. L. Nie, Y. Chen, H. J. Cao, B. Liu, N. Q. Zhang, Z. Said, S. Debnath, M. Jamil, H. M. Ali and S. Sharma, Chin. J. Mech. Eng., 35, 3 (2022).
X. M. Wang, C. H. Li, Y. B. Zhang, W. Ding, M. Yang, T. Gao, H. Cao, X. Xu, Z. Said, S. Debnath, M. Jamil and H. M. Ali, J. Manuf. Process., 59, 76 (2020)
M. Yang, C. Li, Z. Said, Y. Zhang, R. Li, S. Debnath, H. M. Ali, T. Gao and Y. Long, J. Manuf. Process., 71, 501 (2021).
S. A. Lawal, I. A. Choudhury and Y. Nukman, Int. J. Mach. Tool. Manu., 52, 1 (2012).
T. Gao, C. H. Li, D. Z. Jia, Y. B. Zhang, M. Yang, X. M. Wang, H. J. Cao, R. Z. Li, H. M. Ali and X. F. Xu, J. Clean. Prod., 277, 123328 (2020).
E. Kuram, B. Ozcelik and E. Demirbas, Environmentally friendly machining, vegetable based cutting fluids, Springer, Berlin (2013).
Z. Said, P. Sharma, L. S. Sundar, A. Afzal and C. Li, J. Mol. Liq., 340, 117291 (2021).
Z. Said, L. S. Sundar, H. Rezk, A. M. Nassef, S. Chakraborty and C. Li, J. Mol. Liq., 330, 115659 (2021).
M. Soori and M. Asmael, J. New. Technol. Mater., 11, 47 (2021).
K. Pandey and S. Datta, Mater. Today: Proc., 44, 2710 (2021).
B. K. Li, C. H. Li, Y. B. Zhang, Y. G. Wang, D. Z. Jia, M. Yang, N. Q. Zhang, Q. D. Wu, Z. G. Han and K. Sun, J. Clean. Prod., 154, 1 (2017).
S. M. Guo, C. H. Li, Y. B. Zhang, Y. G. Wang, B. K. Li, M. Yang, X. P. Zhang and G. T. Liu, J. Clean. Prod., 140, 1060 (2017).
Y. G. Wang, C. H. Li, Y. B. Zhang, M. Yang, B. K. Li, D. Z. Jia, Y. L. Hou and C. Mao, J. Clean. Prod., 127, 487 (2016).
M. Yang, C. H. Li, Y. B. Zhang, Y. G. Wang, B. K. Li, D. Z. Jia, Y. L. Hou and R. Z. Li, Appl. Therm. Eng., 126, 525 (2017).
W. Ahmed, H. Hegab, H. A. Kishawy and A. Mohany, J. Manuf. Process., 61, 100 (2021).
T. Gao, C. H. Li, Y. B. Zhang, M. Yang, D. Z. Jia, T. Jin, Y. L. Hou and R. Z. Li, Tribol. Int., 131, 51 (2019).
M. Yang, C. H. Li, Y. B. Zhang, D. Z. Jia, R. Z. Li, Y. L. Hou and H. J. Cao, Int. J. Adv. Manuf. Tech., 102, 2617 (2019).
P. B. Raja, M. Ismail, S. Ghoreishiamiri, J. Mirza, M. C. Ismail, S. Kakooei and A. A. Rahim, Chem. Eng. Commun., 203, 1145 (2016).
K. Wickramasinghe, H. Sasahara, E. Abd Rahim and G. Perera, J. Clean. Prod., 257, 120552 (2020).
S. Zhang, T. Zhang, Y. He, D. Liu, J. Wang, X. Du and B. Ma, J. Alloy. Compd., 789, 460 (2019).
D. Park, P. A. Stewart and J. B. Coble, J. Occup. Environ. Hyg., 6, 530 (2009).
B. Lin, J. L. Tang, Y. Y. Wang, H. Wang and Y. Zuo, Molecules, 25, 4200 (2020).
G. J. Becket, Corrosion Causes and Cures, CRC Press, Boca Raton (2017).
Y. Xiang, Z. Wang, Z. Li and W. D. Ni, Corros. Eng. Sci. Techn., 48, 121 (2013).
S. Ma, K. Kim, J. Huh, S. Lee and Y. Hong, Sep. Purif. Technol., 199, 289 (2018).
Z. Tang, Curr. Opin. Solid. St. M., 23, 100759 (2019).
S. A. Umoren, M. M. Solomon, I. B. Obot and R. K. Suleiman, J. Ind. Eng. Chem., 76, 91 (2019).
K. K. Gajrani, P. Suvin, S. V. Kailas and M. R. Sankar, J. Clean. Prod., 206, 108 (2019).
A. G. Talon, J. C. Lopes, A. B. Tavares, B. K. Sato, A. R. Rodrigues, M. C. Genovez, T. A. D. Pinto, H. J. de Mello, P. R. Aguiar and E. C. Bianchi, Int. J. Adv. Manuf. Tech., 104, 1437 (2019).
A. G. Talon, J. C. Lopes, B. K. Sato, A. B. Tavares, F. S. F. Ribeiro, M. C. Genovez, T. A. D. Pinto, H. J. de Mello, P. R. Aguiar and E. C. Bianchi, Int. J. Adv. Manuf. Tech., 108, 2741 (2020).
A. S. A. Sani, E. Abd Rahim, S. Sharif and H. Sasahara, J. Clean. Prod., 209, 947 (2019).
M. Goyal, S. Kumar, I. Bahadur, C. Verma and E. E. Ebenso, J. Mol. Liq., 256, 565 (2018).
X. D. Zhao, J. Yang and X. Q. Fan, Appl. Mech. Mater., 44, 4063 (2011).
Y.-W. Choi, S. Shin, D.-W. Park and J. Choi, Curr. Appl. Phys., 14, 641 (2014).
Q. Liu, Z. Song, H. Han, S. Donkor, L. Jiang, W. Wang and H. Chu, Constr. Build. Mater., 260, 119695 (2020).
S. Chen, B. Zhu and X. Liang, Int. J. Electrochem. Sc., 15, 1 (2020).
F. L. Fei, J. Hu, J. X. Wei, Q. J. Yu and Z. S. Chen, Constr. Build. Mater., 70, 43 (2014).
W. G. Li, B. Yuan, G. N. He and Q. B. Jia, Appl. Chem. Ind. (Chinese), 46, 1752 (2017).
T. Manh, P. Hien, Q. Nguyen, T. Quyen, B. Hinton and N. Nam, J. Taiwan. Inst. Chem. E, 103, 177 (2019).
M. B. Harb, S. Abubshait, N. Etteyeb, M. Kamoun and A. Dhouib, Arab. J. Chem., 13, 4846 (2020).
Y. Zhu, Q. Sun, Y. Wang, J. Tang, Y. Wang and H. Wang, Corros. Sci., 185, 109414 (2021).
Q. Li, D. Zhang, S. Hu, Z. Chen and X. Guo, Mater. Chem. Phys., 243, 122592 (2020).
Z. G. Zhang, D. Guo, H. F. Zhou and L. Q. Zhang, Mater. Prot. (Chinese), 48, 40 (2015).
A. Cockburn, G. Brambilla, M. L. Fernández, D. Arcella, L. R. Bordajandi, B. Cottrill, C. van Peteghem and J. L. Dorne, Toxicol. Appl. Pharm., 270, 209 (2013).
K. Kondo, M. Tsuboi, S. Soejima, N. Kawakita, H. Toba, Y. Kawakami, M. Yoshida, H. Takizawa and A. Tangoku, J. Thorac. Oncol., 14, S691 (2019).
M. A. Deyab, J. Power Sources, 292, 66 (2015).
B. Wu, J. Wan, Y. Zhang, B. Pan and I. M. C. Lo, Environ. Sci. Technol., 54, 50 (2019)
I. A. Kartsonakis, S. G. Stanciu, A. A. Matei, R. Hristu, A. Karantonis and C. A. Charitidis, Corros. Sci., 112, 289 (2016).
G. Mu, X. Li, Q. Qu and J. Zhou, Corros. Sci., 48, 445 (2006).
A. M. Stranick, Corrosion, 40, 296 (2012).
R. Mehra and A. Soni, Chem. Eng. Commun., 191, 1502 (2004).
Y. Zhou, Y. Zuo and B. Lin, Mater. Chem. Phys., 192, 86 (2017).
B. Lin and Y. Zuo, Molecules, 24, 518 (2019).
W. B. Ran, F. Y. Ma and J. M. Liu, Contemp. Chem. Ind., 39, 501 (2010).
P. Zhang, Y. J. Chen, H. J. Huang, Y. Zhou, F. Yan and G. C. Nie, Surf. Rev. Lett., 27, 1950179 (2020).
M. Jakab, F. Presuel-Moreno and J. R. Scully, Corrosion, 61, 246 (2005).
K. T. Kim, H. Y. Chang, B. T. Lim, H. B. Park and Y. S. Kim, Corros. Eng. Sci. Techn., 16, 31 (2017).
M. Tommaselli, N. Mariano and S. Kuri, Constr. Build. Mater., 23, 328 (2009).
M. Deyab and S. Abd El-Rehim, Electrochim. Acta., 53, 1754 (2007).
B. Ait Addi, A. Ait Addi, A. Shaban, E. H. Ait Addi and M. Hamdani, Mediterr. J. Chem., 10, 465 (2020).
J. X. Lian, X. L. Zhang, J. Yang and X. M. Jia, Cem. Carbide (Chinese), 27, 153 (2010).
Y. T. Tan, S. L. Wijesinghe and D. J. Blackwood, J. Electrochem. Soc., 163, C649 (2016).
Y. Zhou, Y. Zuo and B. Lin, Mater. Chem. Phys., 192, 86 (2017).
H. Bensabra, A. Franczak, O. Aaboubi, N. Azzouz and J.-P. Chopart, Metall. Mater. Trans. A, 48, 412 (2017).
D. Wang, M. Wu, J. Ming and J. Shi, Constr. Build. Mater., 270, 121463 (2021).
K. Yee, K. Kee, S. Hassas and M. Ismail, J. Eng. Sci. Technol., 14, 2431 (2019).
J. Wang, X. B. Sheng, Z. Liang, Z. L. Chen and Y. Y. Sheng, J. Univ. Shanghai Sci. Technol (Chinese), 36, 181 (2014).
F. Z. Liu, J. Coastal. Res., 93, 397 (2019).
F. Kandemirli and S. Sagdinc, Corros. Sci., 49, 2118 (2007).
C. B. Zheng, L. Cai, Z. J. Tang and X. L. Shen, Surf. Coat. Tech., 287, 153 (2016).
G. A. Gaber, H. A. Aly and L. Z. Mohamed, Int. J. Electrochem. Sc., 15, 8229 (2020).
D. B. Subedi, D. B. Pokharel and J. Bhattarai, International J. of Metallurgy Alloys, 6, 25 (2020).
M. Javidi and R. Omidvar, J. Mol. Liq., 291, 111330 (2019).
V. K. Deepak and B. Jagadeesh, Int. J. Adv. Eng. Sci. Ap., 4, 183 (2016).
Y.-B. Gao, J. Hu, J. Zuo, Q. Liu, H. Zhang, S.-G. Dong, R.-G. Du and C.-J. Lin, J. Electrochem. Soc., 162, C555 (2015).
L. Huang, X. E. Xu and W. Q. Wang, Surf. Technol. (Chinese), 43, 25 (2014).
J. Zhang, L. Zhang, G. Tao and F. Cui, Int. J. Electrochem. Sci., 13, 6523 (2018).
S. E. Sanni, A. P. Ewetade, M. E. Emetere, O. Agboola, E. Okoro, S. J. Olorunshola and T. S. Olugbenga, Mater. Today. Commun., 19, 238 (2019).
H. Gao, Q. Li, F. Chen, Y. Dai, F. Luo and L. Li, Corros. Sci., 53, 1401 (2011).
S. J. A.-K. E. J. Kareem Mohammed, Al-Khwarizmi Engineering J., 14, 123 (2018).
M. R. Yuan, J. T. Lu and G. Kong, Surf. Coat. Tech., 204, 1229 (2010).
G. Y. Li and D. Yang, Lubr. Eng. (Chinese), 38, 70 (2013).
C. Wang, J. X. Chen, B. S. Hu, Z. Y. Liu, C. B. Wang, J. Han, M. Su, Y. H. Li and C. L. Li, J. Clean. Prod., 238, 117823 (2019).
W. J. Cheng, Q. He and Y. J. Ye, Mod. Chem. Ind. (Chinese), 36, 117 (2016).
T. Zheng, L. Wang, J. Liu, J. Wang and G. Jia, Colloid Surf. A, 610, 125723 (2021).
M. Salasi, T. Shahrabi, E. Roayaei and M. J. M. C. Aliofkhazraei, Mater. Chem. Phys., 104, 183 (2007).
T. Y. Ming, J. Sun, J. W. Yang and S. Q. Li, Met. Mater. Metall. Eng. (Chinese), 45, 11 (2017).
Y. Li, S. Z. Yi and J. Q. Wu, Mater. Prot. (Chinese), 44, 31 (2011).
C. Li, Z. Sun, M. Kang, Z. Yan, Z. Tan, Q. Li, W. Wang, M. Tang, G. Li and Z. Feng, Int. J. Electrochem. Sc., 16, 2 (2021).
F. B. Mainier, A. A. Figueiredo, A. E. R. de Freitas and A. A. M. de Alencar Junior, J. Environ. Prot., 7, 2025 (2016).
B. Salami, A. Afshar and A. Mazaheri, J. Magnes. Alloy., 2, 72 (2014).
J. Ma, G. Wang, Y. Li, W. Li and F. Ren, J. Mater. Eng. Perform., 27, 2247 (2018).
D. A. Awizar, N. K. Othman, A. Jalar, A. R. Daud, I. A. Rahman and N. H. Al-Hardan, Int. J. Electrochem. Sc., 8, 1759 (2013).
C. F. Glover, M. L. C. Lim and J. R. Scully, Corrosion, 77, 40 (2021).
O. Dagdag, L. Guo, Z. Safi, C. Verma, E. E. Ebenso, N. Wazzan, S. Masroor, R. Haldhar, S. Jodeh and M. E. Gouri, J. Mol. Liq., 317, 114249 (2020).
K. Shahzad, E. M. Fayyad, M. Nawaz, O. Fayyaz, R. A. Shakoor, M. K. Hassan, M. A. Umer, M. N. Baig, A. Raza and A. M. Abdullah, Nanomaterials-basel, 10, 1932 (2020).
B. Bhuvaneshwari, S. Vivekananthan, G. Sathiyan, G. Palani, N. R. Iyer, P. K. Rai, K. Mondal and R. K. Gupta, J. Alloy. Compd., 816, 152545 (2020).
S. Wu, Q. Zhang, D. Sun, J. Luan, H. Shi, S. Hu, Y. Tang and H. Wang, Chem. Eng. J., 383, 123162 (2020).
L. M. Calado, M. G. Taryba, Y. Morozov, M. J. Carmezim and M. F. Montemor, Corros. Sci., 170, 108648 (2020).
L. Li, X. Zhang, S. Gong, H. Zhao, Y. Bai, Q. Li and L. Ji, Corros. Sci., 99, 76 (2015).
Y. Tang, X. Yang, W. Yang, R. Wan, Y. Chen and X. Yin, Corros. Sci., 52, 1801 (2010).
C. Gattinoni and A. Michaelides, Faraday. Discuss., 180, 439 (2015).
C. Sun, Y. L. Qian and C. M. Xu, Indian. J. Occup. Envir. (Chinese), 34, 927 (2017).
W. Shang, C. He, Y. Wen, Y. Wang and Z. Zhang, Rsc. Adv., 6, 113967 (2016).
W. Shang, C. B. He, Y. Q. Wen, Y. Y. Wang and Z. Zhang, Rsc. Adv., 6, 113967 (2016).
R. F. Liu, Y. X. Chen, X. Q. Shang, S. Y. Liang and Y. F. Chen, Chem. Ind. Eng. Prog. (Chinese), 31, 1857 (2012).
W. Li, H. Ma and G. S. Li, Mater. Prot. (Chinese), 48, 21 (2015).
H. Xu, M. Sun and X. N. Xu, Lubr. Eng. (Chinese), 44, 147 (2019).
Q. Q. Liang and X. M. Jia, Cem. Carbide. (Chinese), 29, 221 (2012).
X. M. Jia, X. L. Zhang and S. X. Hou, Adv. Sci. Lett., 4, 1352 (2011).
Y. Zhou, J. L. Huang, J. S. Cai, Z. C. Peng and C. W. Miao, China J. Highw. Transp. (Chinese), 33, 195 (2020).
J. Wysocka, M. Cieslik, S. Krakowiak and J. Ryl, Electrochim. Acta, 289, 175 (2018).
L. C. Liu, S. Wen and Y. Lv, Lubr. Eng. (Chinese), 9, 102 (2020).
G. Y. Li, Y. Meng and X. G. Ma, Lubr. Eng. (Chinese), 33, 45 (2008).
H. Q. Xiong, M. S. Li, H. Y. Zeng and J. X. Jia, Lubr. Eng. (Chinese), 38, 113 (2013).
M. M. Zhang, Q. Y. Li and G. Liu, Chem. Adhes. (Chinese), 37, 337 (2015).
J. Mezger, M. Peretolchin, A. Flores-Figueroa, M. Hansch, L. Voelkel, I. G. Castro, K. Muehlbach and H. Boehnke, US Patent, 10240100B2 (2019).
Y. Li and J. Yu, Lubr. Oil. (Chinese), 29, 16 (2014).
J. A. Snyder and C. S. Khadilkar, US Patent, 20,200,115,805 (2020).
G. J. Kirsch, US Patent, 20,180,291,301 (2018).
H. Lei and Q. H. Li, CN Patent (Chinese), 106118834B (2019).
W. L. Gan, W. M. Cheng, X. Li, S. Z. Yi, Y. Zhang and J. Yang, Lubr. Eng. (Chinese), 44, 132 (2019).
Z. H. Wu and W. N. Chen, Technol. Dev. Chem. Ind. (Chinese), 41, 30 (2012).
Y. Q. Zhou, Y. Yi, Z. Huang, T. She, Y. Y. Xu and D. He, J. Wuhan Univ. Technol. (2002-) (Chinese), 35, 50 (2013).
C. H. Wang, W. G. Hou, Q. J. Tan, Z. Y. Wamh and X. C. Cao, Bearing. (Chinese), 5, 10 (2011).
S. Kasshanna and P. Rostron, J. Mater. Environ. Sci., 8, 4292 (2017).
L. Zhang, S. Z. Yi, R. Z. Shi and B. Jiao, Lubr. Eng. (Chinese), 39, 100 (2014).
H. Y. Zhao, A. Neville, A. Morina, R. Vickerman and J. Durham, Tribol. Int., 46, 62 (2012).
S. Khalkar, D. Bhowmick and A. Pratap, J. Oleo. Sci., 62, 901 (2013).
J. Li, Q. Y. Gong, J. Zhou and S. Q. Fu, CN Patent (Chinese), 200610119337.X (2007).
Y. H. Ding, CN Patent (Chinese), 201310609008.3 (2014).
J. Liu, W. Liu and H. Y. Zhou, Lubr. Eng. (Chinese), 39, 119 (2014).
Y. Y. Song Z. H. Yang, R. Ren, M. Wu and J. Liu, Chem. Eng. (Chinese), 29, 13 (2015).
H. Z. Jiang, D. H. Tao and B. Wang, Lubr. Eng. (Chinese), 2, 72 (2005).
X. J. Hao and B. Wang, Shandong Chem. Ind. (Chinese), 046, 36 (2017).
W. J. Sun, H. Li and R. X. He, J. Southwest Univ., Nat. Sci. Ed. (Chinese), 40, 157 (2018).
H. Q. Zhang, X. M. Jia and F. Wang, Key Eng. Mater., 416, 381 (2009).
G. Y. Fu, Y. Z. Wu, X. L. Zhang, L. Y. Yu and Z. L. Wang, Coal. Min. Mach. (Chinese), 37, 44 (2016).
X. X. Cheng, X. M. Jia, Y. X. Song and X. L. Zhang, Cem. Carbide. (Chinese), 28, 45 (2011).
Z. Shirazi, M. H. Keshavarz, K. Esmaeilpour and A. N. Golikand, Prot. Met. Phys. Chem+, 53, 359 (2017).
L. Liu, D. Peng, Y. P. Zhang and Q. Zhang, Chem. Res. Appl. (Chinese), 28, 234 (2016).
S. Xiong, J. Si, J. L. Sun, H. Wu, H. C. Dong and C. Chang, Anticorros. Method. M., 67, 214 (2020).
L. Huang, J. Shen, J. Ren, Q. J. Meng and Q. Yu, Chinese. Sci. Bull. (Chinese), 16, 2171 (2000).
X. Liu, Y. B. Meng, X. M. Ma and Z. Y. Hu, Chemistry (Chinese), 79, 164 (2016).
E. S. H. El Ashry, A. El Nemr, S. A. Esawy and S. Ragab, Electrochim. Acta (Chinese), 51, 3957 (2006).
L. Liu, X. N. Pan, Q. Zhang and J. H. Qian, Acta Chim. Sinica, 65, 4039 (2014).
N. N. Liu, J. L. Sun, L. Xia and Y. F. Zeng, Acta. Phys. Sin. (Chinese), 62, 159 (2013).
W. Lin, H. T. Lin, H. B. Jiang and H. Jiang, CN Patent (Chinese), 201310245063.9 (2013).
M. Scherer, PCT Patient, EP2015/054390 (2016).
Y. I. Kuznetsov, Int. J. Corros. Scale. I., 7, 271 (2018).
M. Turano, M. Walker, F. Grillo, C. Gattinoni, J. Edmondson, O. Adesida, G. Hunt, P. Kirkman, N. Richardson and C. Baddeley, Appl. Surf. Sci., 570, 151206 (2021).
R. Kumari, J. Nayak and A. N. Shetty, Anti-corros. Method. M., 61, 241 (2014).
S. Lu, Z. B. Ren, J. Y. Xie and L. Liu, J. Chin. Soc. Corros. Prot. (Chinese), 40, 577 (2020).
Y. J. Liang, Y. Z. Tang, J. Wu and Y. X. Chen, Machinery (Chinee), 56, 64 (2018).
Z. L. Wei, T. F. Shao, Y. Dong and C. Yang, Lubr. Eng. (Chinese), 38, 102 (2013).
A. K. Singh, O. N. Anand and A. K. Gupta, US Patent, 20,110,237,471 (2011).
J. Zhang and Y. Meng, Light. Metals. (Chinese), 04, 55 (2011).
M. Fan, X. Du, L. Ma, P. Wen, S. Zhang, R. Dong, W. Sun, D. Yang, F. Zhou and W. Liu, Tribol. Int., 130, 317 (2019).
S. Z. Li, W. Q. Fu and C. L. Fen, Environ. Eng. (Chinese), 36, 180 (2018).
A.-M. Saillenfait, S. Ndaw, A. Robert and J.-P. Sabaté, Arch. Toxicol., 92, 2749 (2018).
G. C. Zhang, T. Ma, J. J. Ge and N. Qi, Acta Pet. Sin. Pet. Process. Sect. (Chinese), 2, 45 (2005).
G. Y. Li, D. Yang and M. M. Zhang, Lubr. Eng. (Chinese), 39, 96 (2014).
L. He and C. H. Liu, CN Patent (Chinese), 201610591666.8 (2019).
T. F. Liu, Y. Wang, P. Ma and Y. J. Dai, Petroleum Products Application Research (Chinese), 38, 20 (2020).
Z. Z. Chen, C. L. Zhang, L. Ma, J. Zhang and X. Lang, Lubr. Eng. (Chinese), 45, 136 (2020).
R. Katna, K. Singh, N. Agrawal and S. Jain, Mater. Manuf. Process., 32, 1522 (2017).
C. Cheng, D. Phipps and R. M. Alkhaddar, Water. Res., 39, 4051 (2005).
M. H. Sui, C. H. Li, W. T. Wu, M. Yang, H. M. Ali, Y. B. Zhang, D. Z. Jia, Y. L. Hou, R. Z. Li and H. J. Cao, J. Therm. Sci. Eng. Appl., 13, 051001 (2021).
T. Gao, C. H. Li, M. Yang, Y. B. Zhang, D. Z. Jia, W. F. Ding, S. Debnath, T. B. Yu, Z. Said and J. Wang, J. Mater. Process. Tech., 290, 116976 (2021).
F. W. Yang, J. M. Huang, G. J. Zhang, C. X. Zhang, D. L. Sun, N. F. Gao and S. Z. Yi, 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-T. Asme, 133, 0218011 (2011).
S. Guo, L. Liu, M. Xia, L. Kang, Q. Huang, C. Li, X. Wang, Z. Lin and C. Chen, Inorg. Chem., 55, 6586 (2016).
T. G. Parker, A. L. Chown, A. Beehler, D. Pubbi, J. N. Cross and T. E. Albrecht-Schmitt, Inorg. Chem., 54, 570 (2015).
S. Yagupov, M. Strugatsky, K. Seleznyova, Y. Mogilenec, E. Milyukova, E. Maksimova, I. Nauhatsky, A. Drovosekov, N. Kreines and J. Kliava, J. Magn. Magn. Mater., 417, 338 (2016).
J. Cui, Y. Yang, X. Li, W. Yuan and Y. Pei, ACS Appl. Mater. Interfaces, 10, 4183 (2018).
Z. Zheng, G. Q. Shen, Y. Wan, L. L. Cao, X. D. Xu, Q. X. Yue and T. J. Sun, Wear, 222, 135 (1998).
Z. Li, Y. Zhang, T. Ren and Y. Zhao, P. I. Mech. Eng. J-J. Eng., 228, 770 (2014).
Y. Tian, China. Pet. Process. Pe., 22, 37 (2020).
Y. J. Wang, J. C. Zhong and H. Z. Wang, Mater. Prot. (Chinese), 46, 29 (2013).
Y. Wang, J. Li, Z. He and T. Ren, P. I. Mech. Eng. J-J. Eng., 222, 133 (2008).
Y. Meng, R. F. Wang and M. M. Chen, Synth. Lubr. (Chinese), 39, 12 (2012).
D. C. Li, CN Patent (Chinese), 201410070132.1 (2019).
J. Liu and Y. Y. Song, Chem. Eng. (Chinese), 12, 54 (2015).
B. Yuan, S. Z. Yi and T. Y. Du, Lubr. Eng. (Chinese), 40, 99 (2015).
N. O. Eddy, S. A. Odoemelam and I. N. Ama, Green. Chem. Lett. Rev., 3, 165 (2010).
I. Abidli, N. Souissi and X. R. Novoa, Rev. Roum. Chim., 65, 353 (2020).
A. I. Onen, B. T. Nwufo and E. E. Ebenso, E-J. Chem., 8, 1708 (2011).
A. Singh, I. Ahamad and M. A. Quraishi, Arab. J. Chem., 9, S1584 (2016).
N. Chaubey, Savita, A. Qurashi, D. S. Chauhan and M. A. Quraishi, J. Mol. Liq., 321, 114385 (2021).
S. Z. Salleh, A. H. Yusoff, S. K. Zakaria, M. A. A. Taib, A. A. Seman, M. N. Masri, M. Mohamad, S. Mamat, S. A. Sobri and A. Ali, J. Clean. Prod., 304, 127030 (2021).
L. T. Popoola, Corros. Rev., 37, 71 (2019).
K. T. Kim, H. Y. Chang, B. T. Lim, H. B. Park and Y. S. Kim, Adv. Mater. Sci. Eng., 2016, 1 (2016).
K. T. Kim, H. Y. Chang, B. T. Lim, H. B. Park and Y. S. Kim, Corros. Sci. Technol-K., 15, 171 (2016).
K. T. Kim, H. Y. Chang, B. T. Lim, H. B. Park and Y. S. Kim, Corros. Sci. Technol-K., 16, 31 (2017).
Y. B. Gao, J. Hu, J. Zuo, Q. Liu, H. Zhang, S. G. Dong, R. G. Du and C. J. Lin, J. Electrochem. Soc., 162, C555 (2015).
B. Lim, K. Kim, H. Chang, H. Park and Y. Kim, Metals, 10, 1597 (2020).
J. Hu, Z. Wang, T. T. Wang, P. Y. Xu and N. Li, Mol. Simulat., 45, 927 (2019).
F. Wu, X. Liu, X. Xiao and C.-T. Au, Mater. Performance, 55, 42 (2016).
Funding
This study was financially supported by: the National Key Research and Development Program of China (Grant No. 2020 YFB2010500), the National Natural Science Foundation of China (Grant Nos. 51975305 and 51905289), the Major Science and Technology Innovation Engineering Projects of Shandong Province (Grant No. 2019JZZY020111), the Natural Science Foundation of Shandong Province (Grant Nos. ZR2020KE027, ZR2020ME158 and ZR2019PEE008) and the Applied Basic Research Youth Project of Qingdao science and technology plan (Grant No. 19-6-2-63-cg).
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All authors contributed to the study conception and design. Material preparation, data collection and analysis were performed by [Zongming Zhou], [Xiaolin Nie], [Yun Chen], [Huajun Cao], [Bo Liu], [Naiqing Zhang], [Zafar Said], [Sujan Debnath], [Muhammad Jamil], [Hafiz Muhammad Ali], and [Shubham Sharma]. The first draft of the manuscript was written by [Haogang Li], [Yanbin Zhang] and [Changhe Li] and all authors commented on previous versions of the manuscript. All authors read and approved the final manuscript.
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Li, H., Zhang, Y., Li, C. et al. Cutting fluid corrosion inhibitors from inorganic to organic: Progress and applications. Korean J. Chem. Eng. 39, 1107–1134 (2022). https://doi.org/10.1007/s11814-021-1057-0
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DOI: https://doi.org/10.1007/s11814-021-1057-0