.624. 工程科学学报，第41卷，第5期 environment /Proceedings of the Corrosion 2004.New Orleans, (6):2831 2004:04118 [13]Cao C N.Principles of Electrochemistry of Corrosion.3rd Ed.Bei- [6]TyrMan 3 M.Mechanochemistry and Corrosion Protection of Metal. jing:Chemical Industry Press,2008 Beijing:Science Press,1989 (曹楚南.腐蚀电化学原理.3版.北京：化学工业出版社， (古特曼3M.金属力学化学与腐蚀防护.北京：科学出版 2008) 社，1989) [14]Ren R K,Zhang S,Pang X L,et al.A novel observation of the [7]Despic A R,Raicheff R G.Bockris JO M.Mechanism of the ac- interaction between the macroelastic stress and electrochemical celeration of the electronic dissolution of metals during yielding un- corrosion of low carbon steel in 3.5wt%NaCl solution.Electro- der stress.J Chem Phys,1968,49(2):926 chim Acta,2012,85:283 [8]Sun J B,Liu W,Lu M X.Electrochemical corrosion behavior of [15]Huang Y H.Mechano-chemical Effect in Chloride Corrosion of 16MnR steel with plastic strain in CO,environment.Mater Eng, 304 Stainless Steel [Dissertation].Shanghai:East China Univer- 2009(1):59 sity of Science and Technology,2011 (孙建波，柳伟，路民旭.塑性变形条件下16MR钢的CO2 (黄毓晖.304不锈钢氢离子腐蚀的力-化学行为研究[学位 腐蚀电化学行为.材料工程，2009(1)：59) 论文].上海：华东理工大学，2011) [9]Kim K M,Park J H,Kim HS,et al.Effect of plastic deformation [16]Feaugas X.On the origin of the tensile flow stress in the stainless on the corrosion resistance of ferritic stainless steel as a bipolar steel AlSI 316L at 300 K:back stress and effective stress.Acta plate for polymer electrolyte membrane fuelcells.Int/Hydrogen Mater,1999,47(13):3617 Energ),2012,37(10):8459 [17]Lu B T,Chen Z K,Luo J L,et al.Pitting and stress corrosion [10]Jafari E.Corrosion behaviors of two types of commercial stainless cracking behavior in welded austenitic stainless steel.Electrochim steel after plastic deformation.J Mater Sci Technol,2010,26 Aca,2005.50(6):1391 (9):833 [18]Sahal M.Creus J,Sabot R,et al.The effects of dislocation pat- [11]Lu B T,Luo J L,Norton PR,et al.Effects of dissolved hydro- tems on the dissolution process of polyerystalline nickel.Acta Ma- gen and elastic and plastic deformation on active dissolution of ter,2006,54(8):2157 pipeline steel in anaerobic groundwater of near-neutral pH.Acta [19]Lin C J,Feng Z D,Lin F L,et al.Electrochemical behaviors of Mater,2009,57(1）:41 the loaded stainless steel in dilute thiosulphate solution.Electro- [12]Li M C,Cheng Y F.Corrosion of the stressed pipe steel in car- chem,1995,1(4):439 bonate-bicarbonate solution studied by scanning localized electro- (林昌健，冯祖德，林福龄，等.18/8型不锈钢在受力形变 chemical impedance spectroscopy.Electrochim Acta,2008,53 条件下腐蚀电化学行为的研究.电化学，1995,1(4)：439)工程科学学报,第 41 卷,第 5 期 environment / / Proceedings of the Corrosion 2004. New Orleans, 2004: 04118 [6] 丐劐劁剞匮剡 丞 禺. Mechanochemistry and Corrosion Protection of Metal. Beijing: Science Press, 1989 (古特曼 丞 禺. 金属力学化学与腐蚀防护. 北京: 科学出版 社, 1989) [7] Despic A R, Raicheff R G, Bockris J O M. Mechanism of the ac鄄 celeration of the electronic dissolution of metals during yielding un鄄 der stress. J Chem Phys, 1968, 49(2): 926 [8] Sun J B, Liu W, Lu M X. Electrochemical corrosion behavior of 16MnR steel with plastic strain in CO2 environment. J Mater Eng, 2009(1): 59 (孙建波, 柳伟, 路民旭. 塑性变形条件下 16MnR 钢的 CO2 腐蚀电化学行为. 材料工程, 2009(1): 59) [9] Kim K M, Park J H, Kim H S, et al. Effect of plastic deformation on the corrosion resistance of ferritic stainless steel as a bipolar plate for polymer electrolyte membrane fuelcells. Int J Hydrogen Energy, 2012, 37(10): 8459 [10] Jafari E. Corrosion behaviors of two types of commercial stainless steel after plastic deformation. J Mater Sci Technol, 2010, 26 (9): 833 [11] Lu B T, Luo J L, Norton P R, et al. Effects of dissolved hydro鄄 gen and elastic and plastic deformation on active dissolution of pipeline steel in anaerobic groundwater of near鄄neutral pH. Acta Mater, 2009, 57(1): 41 [12] Li M C, Cheng Y F. Corrosion of the stressed pipe steel in car鄄 bonate鄄bicarbonate solution studied by scanning localized electro鄄 chemical impedance spectroscopy. Electrochim Acta, 2008, 53 (6): 2831 [13] Cao C N. Principles of Electrochemistry of Corrosion. 3rd Ed. Bei鄄 jing: Chemical Industry Press, 2008 (曹楚南. 腐蚀电化学原理. 3 版. 北京:化学工业出版社, 2008) [14] Ren R K, Zhang S, Pang X L, et al. A novel observation of the interaction between the macroelastic stress and electrochemical corrosion of low carbon steel in 3郾 5wt% NaCl solution. Electro鄄 chim Acta, 2012, 85: 283 [15] Huang Y H. Mechano鄄chemical Effect in Chloride Corrosion of 304 Stainless Steel [Dissertation]. Shanghai: East China Univer鄄 sity of Science and Technology, 2011 (黄毓晖. 304 不锈钢氯离子腐蚀的力鄄鄄 化学行为研究[学位 论文]. 上海: 华东理工大学, 2011) [16] Feaugas X. On the origin of the tensile flow stress in the stainless steel AISI 316L at 300 K: back stress and effective stress. Acta Mater, 1999, 47(13): 3617 [17] Lu B T, Chen Z K, Luo J L, et al. Pitting and stress corrosion cracking behavior in welded austenitic stainless steel. Electrochim Acta, 2005, 50(6): 1391 [18] Sahal M, Creus J, Sabot R, et al. The effects of dislocation pat鄄 terns on the dissolution process of polycrystalline nickel. Acta Ma鄄 ter, 2006, 54(8): 2157 [19] Lin C J, Feng Z D, Lin F L, et al. Electrochemical behaviors of the loaded stainless steel in dilute thiosulphate solution. Electro鄄 chem, 1995, 1(4): 439 (林昌健, 冯祖德, 林福龄, 等. 18 / 8 型不锈钢在受力形变 条件下腐蚀电化学行为的研究. 电化学, 1995, 1(4): 439) ·624·