杨永等:交流干扰下X100管线钢及其热影响区在库尔勒土壤模拟液中的腐蚀行为 901· 腐蚀行为分析.兵器材料科学与工程,2018,41(6):1) 蚀行为.中国腐蚀与防护学报,2017,37(4):341) [10]Eliyan FF,Alfantazi A.Corrosion of the heat-affected zones [22]Wang X H,Song X T,Chen Y C,et al.Corrosion behavior of X70 (HAZs)of API-X100 pipeline steel in dilute bicarbonate solutions and X80 pipeline steels in simulated soil solution.Int J at 90 C-an electrochemical evaluation.Corros Sci,2013.74:297 Electrochem Sci,2018,13(7):6436 [11]Eliyan F F,Icre F,Alfantazi A.Passivation of HAZs of API- [23]Wang X H,Tang X H,Wang L W,et al.Synergistic effect of stray X100 pipeline steel in bicarbonate-carbonate solutions at 298 K. current and stress on corrosion of API X65 steel.Nat Gas Sci Ma1 er Corros,,2014,65(12:1162 Eng,2014,21:474 [12]Papadakis G A.Major hazard pipelines:a comparative study of [24]Wang X H,Yang G Y,Huang H,et al.AC stray current corrosion onshore transmission accidents.J Loss Prev Process Ind,1999. law of buried steel pipeline.J Chin Soc Corros Prot,2013,33(4): 12(1):91 293 [13]Mustapha A,Charles E A,Hardie D.Evaluation of environment- (王新华,杨国勇,黄海,等.埋地钢质管道交流杂散电流腐蚀规 assisted cracking susceptibility of a grade X100 pipeline steel 律研究.中国腐蚀与防护学报,2013,33(4):293) Corros Sci,2012,54:5 [25]Wan H X,Song DD,Liu Z Y,et al.Effect of alternating current [14]Kulman F E.Effects of alternating currents in causing corrosion. on corrosion behavior of X80 pipeline steel in near-neutral Corrosion,1961.17(3):34 environment.Acta Metall Sin,2017,53(5):575 [15]Gummow R A,Wakelin R G,Segall S M.AC corrosion-a new (万红霞,宋东东,刘智勇,等.交流电对X80钢在近中性环境中 threat to pipeline integrity?1996 1st International Pipeline 腐蚀行为的影响.金属学报,2017,53(5):575) Conference.Calgary,1996:443 [26]Zhu M,Du C W,Li X G,et al.Effects of alternating current (AC) [16]Fu Y Q,Wang X T,Chen S L.Stray current detection and frequency on corrosion behavior of X80 pipeline steel in a treatment for buried natural gas pipeline of Nanlang segment.Surf simulated acid soil solution.J Chin Soc Corros Prot,2014,34(3): Technol,.2016,45(2:22 225 (符耀庆,王秀通,陈胜利.南朗段埋地天然气管道杂散电流检 (朱敏,杜翠薇,李晓刚,等.交流电额率对X80管线钢在酸性土 测与治理.表面技术,2016,45(2):22) 壤模拟溶液中腐蚀行为的影响.中国腐蚀与防护学报,2014, [17]Hanson H R,Smart J.AC corrosion on a pipeline located in an 34(3):225) HVAC utility corridor /Corrosion 2004.New Orleans,2004: [27]Li X D,Li X,Wang S X,et al.Influence of cooling rate on NACE-04209 microstructure and impact properties of ICCGHAZ of X100 [18]Liang P,Du C W,Li X G.Simulating and accelerating properties pipeline steel during the second pass thermal cycle.Hear Trear of Kuerle soil simulated solution.J Chin Soc Corros Prot,2011, MeL,2017,42(9):66 31(2):97 (李学达李霞,王世新,等.第二道次焊接热循环冷却速度对 (梁平,杜翠薇,李晓刚.库尔勒土壤模拟溶液的模拟性和加速 X100管线钢临界再热粗品区组织及冲击性能的影响.金属热处 性研究.中国腐蚀与防护学报,2011,31(2):97) 理,2017,42(9):66) [19]Goidanich S,Lazzari L,Ormellese M.AC corrosion.Part 2: [28]Lalvani S B,Lin X.A revised model for predicting corrosion of parameters influencing corrosion rate.Corros Sci,2010,52(3): materials induced by alternating voltages.Corros Sci,1996, 916 38(10):1709 [20]Lazzari L,Goidanich S,Ormellese M,et al.Influence of AC on [29]Kuang D,Cheng Y F.Understand the AC induced pitting corrosion kinetics for carbon steel,zinc and copper / corrosion on pipelines in both high pH and neutral pH CORROS/ON 2005.Houston,Texas,2005:NACE-05189 carbonate/bicarbonate solutions.Corros Sci,2014,85:304 [21]Wang X L,Yan M C,Shu Y,et al.AC interference corrosion of [30]Li M C,Cheng Y F.Mechanistic investigation of hydrogen- pipeline steel beneath delaminated coating with holiday.Chin enhanced anodic dissolution of X-70 pipe steel and its implication Soc Corros Prot,2017,37(4):341 on near-neutral pH SCC of pipelines.Electrochim Acta,2007, (王晓霖,间茂成,舒韵,等.破损涂层下管线钢的交流电干扰腐 52(28):8111腐蚀行为分析. 兵器材料科学与工程, 2018, 41(6):1) Eliyan F F, Alfantazi A. Corrosion of the heat-affected zones (HAZs) of API-X100 pipeline steel in dilute bicarbonate solutions at 90 ℃–an electrochemical evaluation. Corros Sci, 2013, 74: 297 [10] Eliyan F F, Icre F, Alfantazi A. Passivation of HAZs of API‐ X100 pipeline steel in bicarbonate‐carbonate solutions at 298 K. Mater Corros, 2014, 65(12): 1162 [11] Papadakis G A. Major hazard pipelines: a comparative study of onshore transmission accidents. J Loss Prev Process Ind, 1999, 12(1): 91 [12] Mustapha A, Charles E A, Hardie D. Evaluation of environmentassisted cracking susceptibility of a grade X100 pipeline steel. Corros Sci, 2012, 54: 5 [13] Kulman F E. Effects of alternating currents in causing corrosion. Corrosion, 1961, 17(3): 34 [14] Gummow R A, Wakelin R G, Segall S M. AC corrosion――a new threat to pipeline integrity? // 1996 1st International Pipeline Conference. Calgary, 1996: 443 [15] Fu Y Q, Wang X T, Chen S L. Stray current detection and treatment for buried natural gas pipeline of Nanlang segment. Surf Technol, 2016, 45(2): 22 (符耀庆, 王秀通, 陈胜利. 南朗段埋地天然气管道杂散电流检 测与治理. 表面技术, 2016, 45(2):22) [16] Hanson H R, Smart J. AC corrosion on a pipeline located in an HVAC utility corridor // Corrosion 2004. New Orleans, 2004: NACE-04209 [17] Liang P, Du C W, Li X G. Simulating and accelerating properties of Kuerle soil simulated solution. J Chin Soc Corros Prot, 2011, 31(2): 97 (梁平, 杜翠薇, 李晓刚. 库尔勒土壤模拟溶液的模拟性和加速 性研究. 中国腐蚀与防护学报, 2011, 31(2):97) [18] Goidanich S, Lazzari L, Ormellese M. AC corrosion. Part 2: parameters influencing corrosion rate. Corros Sci, 2010, 52(3): 916 [19] Lazzari L, Goidanich S, Ormellese M, et al. Influence of AC on corrosion kinetics for carbon steel, zinc and copper // CORROSION 2005. Houston, Texas, 2005: NACE-05189 [20] Wang X L, Yan M C, Shu Y, et al. AC interference corrosion of pipeline steel beneath delaminated coating with holiday. J Chin Soc Corros Prot, 2017, 37(4): 341 (王晓霖, 闫茂成, 舒韵, 等. 破损涂层下管线钢的交流电干扰腐 [21] 蚀行为. 中国腐蚀与防护学报, 2017, 37(4):341) Wang X H, Song X T, Chen Y C, et al. Corrosion behavior of X70 and X80 pipeline steels in simulated soil solution. Int J Electrochem Sci, 2018, 13(7): 6436 [22] Wang X H, Tang X H, Wang L W, et al. Synergistic effect of stray current and stress on corrosion of API X65 steel. J Nat Gas Sci Eng, 2014, 21: 474 [23] Wang X H, Yang G Y, Huang H, et al. AC stray current corrosion law of buried steel pipeline. J Chin Soc Corros Prot, 2013, 33(4): 293 (王新华, 杨国勇, 黄海, 等. 埋地钢质管道交流杂散电流腐蚀规 律研究. 中国腐蚀与防护学报, 2013, 33(4):293) [24] Wan H X, Song D D, Liu Z Y, et al. Effect of alternating current on corrosion behavior of X80 pipeline steel in near-neutral environment. Acta Metall Sin, 2017, 53(5): 575 (万红霞, 宋东东, 刘智勇, 等. 交流电对X80钢在近中性环境中 腐蚀行为的影响. 金属学报, 2017, 53(5):575) [25] Zhu M, Du C W, Li X G, et al. Effects of alternating current (AC) frequency on corrosion behavior of X80 pipeline steel in a simulated acid soil solution. J Chin Soc Corros Prot, 2014, 34(3): 225 (朱敏, 杜翠薇, 李晓刚, 等. 交流电频率对X80管线钢在酸性土 壤模拟溶液中腐蚀行为的影响. 中国腐蚀与防护学报, 2014, 34(3):225) [26] Li X D, Li X, Wang S X, et al. Influence of cooling rate on microstructure and impact properties of ICCGHAZ of X100 pipeline steel during the second pass thermal cycle. Heat Treat Met, 2017, 42(9): 66 (李学达, 李霞, 王世新, 等. 第二道次焊接热循环冷却速度对 X100管线钢临界再热粗晶区组织及冲击性能的影响. 金属热处 理, 2017, 42(9):66) [27] Lalvani S B, Lin X. A revised model for predicting corrosion of materials induced by alternating voltages. Corros Sci, 1996, 38(10): 1709 [28] Kuang D, Cheng Y F. Understand the AC induced pitting corrosion on pipelines in both high pH and neutral pH carbonate/bicarbonate solutions. Corros Sci, 2014, 85: 304 [29] Li M C, Cheng Y F. Mechanistic investigation of hydrogenenhanced anodic dissolution of X-70 pipe steel and its implication on near-neutral pH SCC of pipelines. Electrochim Acta, 2007, 52(28): 8111 [30] 杨 永等: 交流干扰下 X100 管线钢及其热影响区在库尔勒土壤模拟液中的腐蚀行为 · 901 ·