Page 23 - 《精细化工》2023年第6期
P. 23

第 6 期                       李永胜,等:  海洋防腐领域中有机缓蚀剂的研究进展                                   ·1173·


            缓蚀剂对涂层造成的性能损伤及其自身的泄漏失                                  NaCl[J]. Materials, 2019, 12(3): 449.
            效。针对有机缓蚀剂的自身局限性,未来的研究方                             [10]  GOLOVIN  V A, IL'IN A B, ALIEV  A D,  et al. Mass transfer  of
                                                                   phosphorus-containing corrosion inhibitors  in epoxy  protective
            向应集中在以下方面:(1)尝试运用液相色谱-质谱                               coatings[J]. Protection of Metals and Physical Chemistry of Surfaces,
            法、气相色谱-质谱法等现代测试分析手段对有机缓                                2020, 55(7): 1345-1351.
                                                               [11]  AMAR H, BENZAKOUR J, DERJA A,  et al. Piperidin-1-yl-
            蚀剂分子中有效缓蚀活性成分进行判定,进而完善有
                                                                   phosphonic acid and (4-phosphono-piperazin-1-yl) phosphonic acid:
            机缓蚀剂分子结构与缓蚀机制间的构效关系;(2)分                               A new class of iron corrosion inhibitors in sodium chloride 3%
            析含有机缓蚀剂的防腐涂层的宏观性能、微观形貌                                 media[J]. Applied Surface Science, 2006, 252(18): 6162-6172.
                                                               [12]  PRABAKARAN M, VENKATESH M, RAMESH S, et al. Corrosion
            结构、界表面作用力三者之间的内在联系,阐明有
                                                                                                    2+
                                                                   inhibition behavior of propyl phosphonic acid-Zn  system for
            机缓蚀剂对金属基体表面以及涂层中金属离子的螯                                 carbon steel in aqueous solution[J]. Applied Surface Science, 2013,
            合配位作用过程,采用腐蚀产物分析法、电化学法、                                276: 592-603.
                                                               [13]  TIAN H, LI W, CAO K, et al. Potent inhibition of copper corrosion
            谱学方法等手段从宏观、微观、分子 3 个层面探究
                                                                   in neutral chloride media by novel non-toxic thiadiazole derivatives[J].
            有机缓蚀剂在涂层中的缓蚀作用机制;(3)通过单                                Corrosion Science, 2013, 73: 281-291.
            一变量法探究有机缓蚀剂类型、浓度等因素与涂层                             [14]  SHERIF  E M. Corrosion and corrosion inhibition of aluminum in
                                                                   Arabian Gulf seawater and sodium chloride solutions by 3-amino-5-
            之间的对应关系,并通过加大实验样本量对有机缓蚀
                                                                   mercapto-1,2,4-triazole[J]. Int J Electrochem Sci, 2011, 6(5): 1479-1492.
            剂与涂料之间的适用性作出系列研究分析;(4)进一                           [15]  ECHIHI S,  BENZBIRIA N, BELGHITI M E,  et al. Corrosion
            步验证不同微/纳米容器和不同负载方法对金属基                                 inhibition  of copper by pyrazole pyrimidine derivative in synthetic
                                                                   seawater: Experimental and theoretical studies[J]. Materials Today:
            体种类、涂层和有机缓蚀剂之间的普适性。并通过
                                                                   Proceedings, 2021, 37: 3958-3966.
            工业样品实验和更加全面的性能测试对封装固定法                             [16]  VERMA C, QURAISHI M A, RHEE K Y. Aqueous phase polymeric
            的应用前景作出评估;(5)加大无毒无害、可生物                                corrosion inhibitors: Recent advancements and future opportunities[J].
                                                                   Journal of Molecular Liquids, 2022, 348: 118387.
            降解、环境友好型有机缓蚀剂的开发力度。并尝试                             [17]  VEEDU K K, MOHAN S, SOMAPPA S B,  et al. Eco-friendly
            将有机缓蚀剂与其他化合物进行复配构建协同体                                  anticorrosive epoxy coating from  Ixora leaf extract: A promising
            系,增强涂料自身功能性,以适应复杂的海洋腐蚀                                 solution for steel  protection in marine  environment[J]. Journal of
                                                                   Cleaner Production, 2022, 340: 130750.
            环境。                                                [18]  GUO L, OBOT I B, ZHENG X W, et al. Theoretical insight into an
                                                                   empirical rule about organic corrosion inhibitors containing nitrogen,
            参考文献:                                                  oxygen, and  sulfur atoms[J]. Applied Surface Science,  2017, 406:
            [1]   HOU  B R (侯保荣), ZHANG D (张盾), WANG P (王鹏). Marine   301-306.
                 corrosion and protection: Current status and prospect[J]. Bulletin of   [19]  VERMA C, OLASUNKANMI L O, EBENSO E E, et al. Substituents
                 Chinese Academy  of Science (中国科学院院刊), 2016, 31(12):   effect on corrosion inhibition performance of organic compounds in
                 1326-1331.                                        aggressive ionic solutions: A review[J]. Journal of Molecular Liquids,
            [2]   ZHANG C Z (张超智), JIANG W (蒋威), XU H F (徐洪飞), et al.   2018, 251: 100-118.
                 Research progress  of marine anti-corrosive coatings[J]. Corrosion   [20]  TANG Z L.  A review of corrosion inhibitors  for rust  preventative
                 Science  and Protection Technology (腐蚀科学与防护技术), 2016,   fluids[J]. Current Opinion in Solid State and Materials Science, 2019,
                 28(3): 269-275.                                   23(4): 100759.
            [3]   WU K K (吴坤坤), LI Q D (李谦定), MENG Z C (孟祖超), et al.   [21]  GEETHANJALI R, SUBHASHINI S, SABIRNEEZA A F. Polymeric
                 Research progress of  heterocyclic compounds as acid picking   corrosion inhibitors for iron and its alloys:  A review[J]. Chemical
                 inhibitors[J]. Corrosion Science and Protection Technology (腐蚀科  Engineering Communications, 2015, 202(2): 232-244.
                 学与防护技术), 2016, 28(6): 577-583.                [22]  LI X M (李小敏), LIU  Y N (刘亚男), LIU J S (刘晶姝),  et al.
            [4]   WANG J X (王吉星), MA J Y (马景洋), JIANG Z Q (江志强), et al.   Research status and prospect of polymer inhibitors[J]. Total Corrosion
                 Research status of self-repairing anticorrosive coatings[J]. Fine   Control (全面腐蚀控制), 2013, 27(2): 23-27.
                 Chemicals (精细化工), 2022, 39(4): 649-656,774.   [23]  SINGH  A, LIN Y H,  ZHU C  Y, et  al. Use of HPHT autoclave to
            [5]   RAJA P B, ISMAIL M, GHOREISHIAMIRI S,  et al. Reviews on   determine corrosion inhibition effect  of  poly(methyl methacrylate-
                 corrosion inhibitors: A short view[J]. Chemical Engineering   co-N-vinyl-2-pyrrolidine) on carbon steels in 3.5% NaCl solution
                 Communications, 2016, 203(9): 1145-1156.          saturated with CO 2[J]. Chinese Journal of Polymer Science, 2014,
            [6]   REN T G (任铁钢), SU H S (苏慧双), LIU Y (刘月), et al. Research   33: 339-348.
                 progress of metal corrosion inhibitors[J]. Chemical Research (化学  [24]  LIU G Q,  XUE  M W,  YANG  H. Polyether copolymer as an
                 研究), 2018, 29(4): 331-342.                        environmentally friendly scale and corrosion inhibitors in seawater[J].
            [7]   CAI G W (蔡国伟), YANG L H  (杨黎晖), LI Y T (李言涛).    Desalination, 2017, 419: 133-140.
                 Research and development of corrosion on inhibitors for carbon steel   [25]  CHEN T Q, CHEN M J, CHEN Z, et al. Comprehensive investigation of
                 in seawater[J]. Corrosion & Protection (腐蚀与防护), 2015, 36(2):   modified polyethyleneimine  as an efficient polymeric  corrosion
                 101-107.                                          inhibitor in neutral medium: Synthesis, experimental and theoretical
            [8]   AHMED A H, SHERIF E S M, ABDO H S, et al. Ethanedihydrazide   assessments[J]. Journal of Molecular Liquids, 2021, (1): 116803.
                 as a corrosion inhibitor for iron in  3.5% NaCl solutions[J]. ACS   [26]  QIU W G (邱文革), CHANG  X L (常西亮). Research  progress of
                 Omega, 2021, 6(22): 14525-14532.                  polymer corrosion inhibitors[J]. Journal of Beijing University of
            [9]   TANG M J,  LI J B, LI Z D,  et al. Mannich base as corrosion   Technology (北京工业大学学报), 2003, (2): 210-214.
                 inhibitors for N80 steel in a CO 2 saturated solution containing 3wt%   [27]  LYU W J (吕文静), ZHANG Y J (张颖君), SHI C (师超),  et al.
   18   19   20   21   22   23   24   25   26   27   28