气相缓蚀剂的研究开发及应用中若干问题的探讨
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摘要
气相缓蚀技术是一种采用气相缓蚀剂来防止金属气相腐蚀的方法,具有使用方便、经济有效等优点。探讨了气相缓蚀技术应用和开发过程中存在的一些问题,主要包括:新型高效气相缓蚀剂开发及复配技术;气相缓蚀剂的挥发扩散;气相缓蚀剂的应用技术发展;气相缓蚀剂的毒性和使用安全性问题。
The volatile corrosion inhibition technology is important in preventing the vapor phase corrosion of metals,which has advantages of being effective,economic and easy to use.Some issues regarding the development of volatile corrosion inhibitors are reviewed. The information is mainly related to the novel volatile corrosion inhibitor and their synergistic effect,the volatilization and diffusion of volatile corrosion inhibitors,the application method of volatile corrosion inhibitors,and the toxicity and safety in using volatile corrosion inhibitors.
The volatile corrosion inhibition technology is important in preventing the vapor phase corrosion of metals,which has advantages of being effective,economic and easy to use.Some issues regarding the development of volatile corrosion inhibitors are reviewed. The information is mainly related to the novel volatile corrosion inhibitor and their synergistic effect,the volatilization and diffusion of volatile corrosion inhibitors,the application method of volatile corrosion inhibitors,and the toxicity and safety in using volatile corrosion inhibitors.
引文
[1]刘伟,蒋以奎,葛红花.我国电网设备大气腐蚀及控制[J].上海电力学院学报,2016,32(4):349-354.
[2]原徐杰,张俊喜,吕小增,等.干湿交替微液滴模拟加速腐蚀试验装置的建立[J].上海电力学院学报,2012,28(6):561-564.
[3]赵阳,梁磊,张建良,等.湿法脱硫烟气系统腐蚀环境及ND钢与316L不锈钢的耐蚀性能比较[J].上海电力学院学报,2016,32(3):216-220.
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[5]肖怀斌.气相缓蚀剂的研究与发展[J].材料保护,2000,33(1):26-28.
[6]高国,梁成浩.气相缓蚀剂的研究现状及发展趋势[J].中国腐蚀与防护学报,2007,27(4):252-256.
[7]RAJA P B,BOTHI P,GHOREISHIAMIRI S,et al.Reviews on corrosion inhibitors:a short view[J].Chemical Engineering Communications,2016,203(9):1145-1156.
[8]BASTIDAS J M,MORA E M.A laboratory study of mild steel vapour phase corrosion and its inhibition by dicyclohexylamine nitrite[J].Canadian Metallurgical Quarterly,1998,37(1):57-65.
[9]CHEN Z,HUANG L,ZHANG G,et al.Benzotriazole as a volatile corrosion inhibitor during the early stage of copper corrosion under adsorbed thin electrolyte layers[J].Corrosion Science,2012,65:214-222.
[10]DWIVEDI S K,NIGAMA.Corrosion inhibition by vapour phase process in mild steel by amino acid and nitrobenzene[J].VSRD Technical&Non-Technical Journal,2011,2(9):437-441.
[11]VALENTE Jr MA G,TEIXEIRA D A,AZEVEDO D L,et al.Caprylate salts based on amines as volatile corrosion inhibitors for metallic zinc:theoretical and experimental studies[J].Frontiers in Chemistry,2017,5:32.
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[13]VOROBIOVA V I,CHYHYRYNETS O E,VA-SYLKEVYCH O I.Mechanism of formation of the protective films on steel by volatile compounds of rapeseed cake[J].Materials Science,2015,50(5):726-735.
[14]BELARBI Z,VU T N,FARELAS F,et al.Thiols as volatile corrosion inhibitors for top-of-the-line corrosion[J].Corrosion,2017,73(7):892-899.
[15]GAO G,LIANG C H,WANG H.Synthesis of tertiary amines and their inhibitive performance on carbon steel corrosion[J].Corrosion Science,2007,49(4):1833-1846.
[16]GAO G,LIANG C H.1,3-Bis-diethylamino-propan-2-ol as volatile corrosion inhibitor for brass[J].Corrosion Science,2007,49(9):3479-3493.
[17]ZHANG D,AN Z,PAN Q,et al.Comparative study of bispiperidiniummethyl-urea and mono-piperidiniummethyl-urea as volatile corrosion inhibitors for mild steel[J].Corrosion Science,2006,48(6):1437-1448.
[18]ZHANG D,AN Z,PAN Q,et al.Volatile corrosion inhibitor film formation on carbon steel surface and its inhibition effect on the atmospheric corrosion of carbon steel[J].Applied Surface Science,2006,253(3):1343-1348.
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[20]ZHANG D Q,GAO L X,ZHOU G D.Polyamine compound as a volatile corrosion inhibitor for atmospheric corrosion of mild steel[J].Materials&Corrosion,2015,58(8):594-598.
[21]张大全.气相缓蚀剂研究、开发及应用的进展[J].材料保护,2010,43(4):61-64.
[22]OLAJIRE A A.Corrosion inhibition of offshore oil and gas production facilities using organic compound inhibitors-A review[J].Journal of Molecular Liquids,2017,248:775-808.
[23]ANDREEV N N,KUZNETSOV Y I.Physicochemical aspects of the action of volatile metal corrosion inhibitors[J].Russian Chemical Reviews,2005,74(8):685-695.
[24]GONCHAROVA O A,KUZNETSOV Y I,ANDREEV N N,et al.Depositing nanolayers of volatile organic compounds on metals for higher resistance to atmospheric corrosion[J].Protection of Metals and Physical Chemistry of Surfaces,2016,52(7):1140-1146.
[25]KUZNETSOV Y I.Physico-chemical aspects of protection of metals by organic corrosion inhibitors[J].Protection of Metals and Physical Chemistry of Surfaces,2015,51(7):1111-1121.
[26]FOCKE W W,NHLAPO N S,VUORINEN E.Thermal analysis and FTIR studies of volatile corrosion inhibitor model systems[J].Corrosion Science,2013,55(7):88-96.
[27]RAMMELT U,KOEHLER S,REINHARD G.Synergistic effect of benzoate and benzotriazole on passivation of mild steel[J].Corrosion Science,2008,50(6):1659-1663.
[28]BAVARIAN B,SAMIMI B,REINER L,et al.Influence of powder size of the vapor corrosion inhibitor on inhibiting effectiveness[J].Materials Performance,2017(6):4-9.
[29]ESTEVAO L R M,NASCIMENTO R S V.Modifications in the volatilization rate of volatile corrosion inhibitors by means of host-guest systems[J].Corrosion Science,2001,43(6):1133-1153.
[30]张大全,朱瑞佳,高立新,等.有机蒙脱土的制备及对气相缓蚀剂的改性[J].精细化工,2007,24(10):1037-1040.
[31]滕飞,胡钢.WB-1复合气相缓蚀剂对清代带锈铁质钱币文物的保护研究[J].文物保护与考古科学,2016,28(1):18-23.
[32]丁艳梅,许淳淳,王菊琳.铜器文物用气相缓蚀剂的研究[J].北京化工大学学报(自然科学版),2006,33(2):68-71.
[33]ARTHUR D E,JONATHAN A,AMEH P O,et al.A reviewon the assessment of polymeric materials used as corrosion inhibitor of metals and alloys[J].International Journal of Industrial Chemistry,2013,4(1):2-10.
[34]RAMMELT U,KOEHLER S,REINHARD G.Use of vapour phase corrosion inhibitors in packages for protecting mild steel against corrosion[J].Corrosion Science,2009,51(4):921-925.
[35]EBADI-DEHAGHANI H.Diffusion of 1,2,3-benzotriazole as a volatile corrosion inhibitor through common polymer films using the molecular dynamics simulation method[J].Journal of Macromolecular Science Part B,2016,55(3):310-318.
[36]BAVARIAN B,IKDER Y,SAMIMI B,et al.Comparison of the corrosion protection effectiveness of vapor corrosion inhibitors and dry air system[C]//Corrosion 2015 Conference&EXPO.NACE International,2015:15-19.
[37]王以革.易挥发固体挥发分爆炸极限测量方法[J].消防科学与技术,2015,34(5):569-571.
[2]原徐杰,张俊喜,吕小增,等.干湿交替微液滴模拟加速腐蚀试验装置的建立[J].上海电力学院学报,2012,28(6):561-564.
[3]赵阳,梁磊,张建良,等.湿法脱硫烟气系统腐蚀环境及ND钢与316L不锈钢的耐蚀性能比较[J].上海电力学院学报,2016,32(3):216-220.
[4]张大全.气相缓蚀剂及其应用[M].北京:化学工业出版社,2007.
[5]肖怀斌.气相缓蚀剂的研究与发展[J].材料保护,2000,33(1):26-28.
[6]高国,梁成浩.气相缓蚀剂的研究现状及发展趋势[J].中国腐蚀与防护学报,2007,27(4):252-256.
[7]RAJA P B,BOTHI P,GHOREISHIAMIRI S,et al.Reviews on corrosion inhibitors:a short view[J].Chemical Engineering Communications,2016,203(9):1145-1156.
[8]BASTIDAS J M,MORA E M.A laboratory study of mild steel vapour phase corrosion and its inhibition by dicyclohexylamine nitrite[J].Canadian Metallurgical Quarterly,1998,37(1):57-65.
[9]CHEN Z,HUANG L,ZHANG G,et al.Benzotriazole as a volatile corrosion inhibitor during the early stage of copper corrosion under adsorbed thin electrolyte layers[J].Corrosion Science,2012,65:214-222.
[10]DWIVEDI S K,NIGAMA.Corrosion inhibition by vapour phase process in mild steel by amino acid and nitrobenzene[J].VSRD Technical&Non-Technical Journal,2011,2(9):437-441.
[11]VALENTE Jr MA G,TEIXEIRA D A,AZEVEDO D L,et al.Caprylate salts based on amines as volatile corrosion inhibitors for metallic zinc:theoretical and experimental studies[J].Frontiers in Chemistry,2017,5:32.
[12]ASMARA Y P,SURAJ V,SIREGAR J P,et al.Development of green vapour corrosion inhibitor[C]//IOP Conference Series:Materials Science and Engineering.IOP Publishing,2017,257(1):012089.
[13]VOROBIOVA V I,CHYHYRYNETS O E,VA-SYLKEVYCH O I.Mechanism of formation of the protective films on steel by volatile compounds of rapeseed cake[J].Materials Science,2015,50(5):726-735.
[14]BELARBI Z,VU T N,FARELAS F,et al.Thiols as volatile corrosion inhibitors for top-of-the-line corrosion[J].Corrosion,2017,73(7):892-899.
[15]GAO G,LIANG C H,WANG H.Synthesis of tertiary amines and their inhibitive performance on carbon steel corrosion[J].Corrosion Science,2007,49(4):1833-1846.
[16]GAO G,LIANG C H.1,3-Bis-diethylamino-propan-2-ol as volatile corrosion inhibitor for brass[J].Corrosion Science,2007,49(9):3479-3493.
[17]ZHANG D,AN Z,PAN Q,et al.Comparative study of bispiperidiniummethyl-urea and mono-piperidiniummethyl-urea as volatile corrosion inhibitors for mild steel[J].Corrosion Science,2006,48(6):1437-1448.
[18]ZHANG D,AN Z,PAN Q,et al.Volatile corrosion inhibitor film formation on carbon steel surface and its inhibition effect on the atmospheric corrosion of carbon steel[J].Applied Surface Science,2006,253(3):1343-1348.
[19]张大全,高立新,周国定.吗啉衍生物气相缓蚀剂的分子设计和缓蚀协同作用研究[J].中国腐蚀与防护学报,2006,26(2):120-124.
[20]ZHANG D Q,GAO L X,ZHOU G D.Polyamine compound as a volatile corrosion inhibitor for atmospheric corrosion of mild steel[J].Materials&Corrosion,2015,58(8):594-598.
[21]张大全.气相缓蚀剂研究、开发及应用的进展[J].材料保护,2010,43(4):61-64.
[22]OLAJIRE A A.Corrosion inhibition of offshore oil and gas production facilities using organic compound inhibitors-A review[J].Journal of Molecular Liquids,2017,248:775-808.
[23]ANDREEV N N,KUZNETSOV Y I.Physicochemical aspects of the action of volatile metal corrosion inhibitors[J].Russian Chemical Reviews,2005,74(8):685-695.
[24]GONCHAROVA O A,KUZNETSOV Y I,ANDREEV N N,et al.Depositing nanolayers of volatile organic compounds on metals for higher resistance to atmospheric corrosion[J].Protection of Metals and Physical Chemistry of Surfaces,2016,52(7):1140-1146.
[25]KUZNETSOV Y I.Physico-chemical aspects of protection of metals by organic corrosion inhibitors[J].Protection of Metals and Physical Chemistry of Surfaces,2015,51(7):1111-1121.
[26]FOCKE W W,NHLAPO N S,VUORINEN E.Thermal analysis and FTIR studies of volatile corrosion inhibitor model systems[J].Corrosion Science,2013,55(7):88-96.
[27]RAMMELT U,KOEHLER S,REINHARD G.Synergistic effect of benzoate and benzotriazole on passivation of mild steel[J].Corrosion Science,2008,50(6):1659-1663.
[28]BAVARIAN B,SAMIMI B,REINER L,et al.Influence of powder size of the vapor corrosion inhibitor on inhibiting effectiveness[J].Materials Performance,2017(6):4-9.
[29]ESTEVAO L R M,NASCIMENTO R S V.Modifications in the volatilization rate of volatile corrosion inhibitors by means of host-guest systems[J].Corrosion Science,2001,43(6):1133-1153.
[30]张大全,朱瑞佳,高立新,等.有机蒙脱土的制备及对气相缓蚀剂的改性[J].精细化工,2007,24(10):1037-1040.
[31]滕飞,胡钢.WB-1复合气相缓蚀剂对清代带锈铁质钱币文物的保护研究[J].文物保护与考古科学,2016,28(1):18-23.
[32]丁艳梅,许淳淳,王菊琳.铜器文物用气相缓蚀剂的研究[J].北京化工大学学报(自然科学版),2006,33(2):68-71.
[33]ARTHUR D E,JONATHAN A,AMEH P O,et al.A reviewon the assessment of polymeric materials used as corrosion inhibitor of metals and alloys[J].International Journal of Industrial Chemistry,2013,4(1):2-10.
[34]RAMMELT U,KOEHLER S,REINHARD G.Use of vapour phase corrosion inhibitors in packages for protecting mild steel against corrosion[J].Corrosion Science,2009,51(4):921-925.
[35]EBADI-DEHAGHANI H.Diffusion of 1,2,3-benzotriazole as a volatile corrosion inhibitor through common polymer films using the molecular dynamics simulation method[J].Journal of Macromolecular Science Part B,2016,55(3):310-318.
[36]BAVARIAN B,IKDER Y,SAMIMI B,et al.Comparison of the corrosion protection effectiveness of vapor corrosion inhibitors and dry air system[C]//Corrosion 2015 Conference&EXPO.NACE International,2015:15-19.
[37]王以革.易挥发固体挥发分爆炸极限测量方法[J].消防科学与技术,2015,34(5):569-571.