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［20］ Liu W J，Cao F H，Chen A N，et al． Corrosion behaviour of AM60 magnesium alloys containing Ce or La under thin electro￾lyte layers． Part 1: microstructural characterization and electro￾chemical behaviour． Corros Sci，2010，52( 2) : 627 ［21］ Davoodi A，Esfahani Z，Sarvghad M． Microstructure and corro￾sion characterization of the interfacial region in dissimilar friction stir welded AA5083 to AA7023． Corros Sci，2016，107: 133 ［22］ Stratmann M． The investigation of the corrosion properties of met￾als，covered with adsorbed electrolyte layers—a new experimental technique． Corros Sci，1987，27( 8) : 869 ［23］ Zou F，Han W． Electrochemical study of metals under thin elec￾trolyte layer with Kelvin probe method． Corros Sci Prot Technol， 1995，7( 3) : 192 ( 邹锋，韩薇． 利用 Kelvin 探针进行金属薄液层下电化学测 量． 腐蚀科学与防护技术，1995，7( 3) : 192) ［24］ Stratmann M，Streckel H． On the atmospheric corrosion of metals which are covered with thin electrolyte layers—I． Verification of the experimental technique． Corros Sci，1990，30( 6-7) : 681 ［25］ Stratmann M，Streckel H，Kim K T，et al． On the atmospheric corrosion of metals which are covered with thin electrolyte lay￾ers—III． The measurement of polarisation curves on metal sur￾faces which are covered by thin electrolyte layers． Corros Sci， 1990，30( 6-7) : 715 ［26］ Wang J，Tsuru T． An investigation on oxygen reduction under e￾lectrolyte layer using Kelvin probe reference electrode． J Chin Soc Corros Prot，1995，15( 3) : 180 ( 王佳，水流彻． 使用 Kelvin 探头参比电极技术研究液层厚 度对氧还原速度的影响． 中国腐蚀与防护学报，1995，15 ( 3) : 180) ［27］ Frankel G S，Stratmann M，Ｒohwerder M，et al． Potential con￾trol under thin aqueous layers using a Kelvin Probe． Corros Sci， 2007，49( 4) : 2021 ［28］ Fu A Q，Tang X，Cheng Y F． Characterization of corrosion of X70 pipeline steel in thin electrolyte layer under disbonded coat￾ing by scanning Kelvin probe． Corros Sci，2009，51( 1) : 186 ［29］ Zhong Q D． Study of corrosion behaviour of mild steel and copper in thin film salt solution using the wire beam electrode． Corros Sci，2002，44( 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海水液滴铺展因子对碳钢表面电 化学特性的影响． 材料研究学报，2015，29( 2) : 95) ［35］ Dubuisson E，Lavie F，Dalard F，et al． Study of the atmospheric corrosion of galvanised steel in a micrometric electrolytic droplet． Electrochem Commun，2006，8( 6) : 911 ［36］ Jiang J，Wang J，Lu Y H，et al． Effect of length of gas/liquid / solid three-phase boundary zone on cathodic and corrosion behav￾ior of metals． Electrochim Acta，2009，54( 5) : 1426 ［37］ Li S X，Hihara L H． Atmospheric-corrosion electrochemistry of NaCl droplets on carbon steel． J Electrochem Soc，2012，159 ( 11) : C461 ［38］ Cheng Q L，Zhang W H，Tao B． Investigation of the electro￾chemical corrosion of copper under a micrometric electrolyte drop￾let using a three-electrode system． Acta Phys Chim Sin，2015， 31( 7) : 1345 ［39］ Nishikata A，Ichihara Y，Hayashi Y，et al． Influence of electro￾lyte layer thickness and pH on the initial stage of the atmospheric corrosion of iron． J Electrochem Soc，1997，144( 4) : 1244 ［40］ Fan L，Xing Q，Qiu Ｒ，et al． Application of wire beam electrode technology in corrosion． Corros Sci Prot Technol，2015，27( 5) : 509 ( 范林，邢青，邱日，等． 阵列电极技术在腐蚀领域的应用进 展． 腐蚀科学与防护技术，2015，27( 5) : 509) ［41］ Krawiec H，Vignal V，Akid Ｒ． Numerical modelling of the elec￾trochemical behaviour of 316L stainless steel based upon static and dynamic experimental microcapillary-based techniques． Elec￾trochim Acta，2008，53( 16) : 5252 ［42］ Birbilis N，Padgett B N，Buchheit Ｒ． Limitations in microelec￾trochemical capillary cell testing and transformation of electro￾chemical transients for acquisition of microcell impedance data． Electrochim Acta，2005，50( 16-17) : 3536 ［43］ Tan Y J，Liu T，Aung N N． Novel corrosion experiments using the wire beam electrode: ( III) Measuring electrochemical corro￾sion parameters from both the metallic and electrolytic phases． Corros Sci，2006，48( 1) : 53 ［44］ Liu T，Tan Y J，Lin B Z M，et al． Novel corrosion experiments using the wire beam electrode． ( IV) Studying localised anodic dissolution of aluminium． Corros Sci，2006，48( 1) : 67 · 756 ·