Relationship between electrochemical processes and environment-assisted crack growth under static and dynamic atmospheric conditions

PatrickKramer; FritzFriedersorf; MatthewMerrill; Carlos M.Hargarter; Steven A.Policastro; MarkKim; NathanBrown

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Relationship between electrochemical processes and environment-assisted crack growth under static and dynamic atmospheric conditions

机译：电化学过程与静态和动态大气条件下的环境辅助裂纹增长的关系

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Environment-assisted cracking (EAC) of aluminum alloys in corrosive atmospheres is a significant maintenance and safety issue. EAC is influenced by the interaction of stress, environment, and microstructure. Atmospheric conditions and corrosion kinetics are dynamic due to diurnal cycles and changing operating conditions. Temperature, relative humidity, and surface contaminants interact to control thin-film electrolyte properties. Within a crack, the separation of the anode and cathode may occur due to concentration gradients between the crack tip, mouth, and external surface. Conventional immersion testing is not well suited to study factors and interactions leading to atmospheric EAC because the bulk electrolyte conditions for immersion testing are different from the thin-film properties. Additionally, standard three-electrode immersion measurements are not well suited to directly investigate the variation and distribution of cathodic and anodic currents on a sample surface and within an EAC crack. In this work, atmospheric electrochemical tests have been conducted using a segmented, multielectrode sensor with an artificial crevice to quantify local, dynamic anodic and cathodic current distributions. These tests are compared to EAC growth rate measurements. Maximum EAC growth rates are observed when high cathodic current is measured at the tip of artificial crevices, suggesting a hydrogen embrittlement mechanism.

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来源
《Corrosion Reviews》 |2017年第5期|共10页
作者
PatrickKramer; FritzFriedersorf; MatthewMerrill; Carlos M.Hargarter; Steven A.Policastro; MarkKim; NathanBrown;
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作者单位

Luna Innovations Inc. 706 Forest Street Suite A Charlottesville VA 22903-5231 USA;

Luna Innovations Inc. 706 Forest Street Suite A Charlottesville VA 22903-5231 USA;

Luna Innovations Inc. 706 Forest Street Suite A Charlottesville VA 22903-5231 USA;

Naval Research Laboratory 4555 Overlook Avenue Southwest Washington DC 20375 USA;

Naval Research Laboratory 4555 Overlook Avenue Southwest Washington DC 20375 USA;

Luna Innovations Inc. 706 Forest Street Suite A Charlottesville VA 22903-5231 USA;

Luna Innovations Inc. 706 Forest Street Suite A Charlottesville VA 22903-5231 USA;

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原文格式 PDF
正文语种 eng
中图分类金属腐蚀与保护、金属表面处理;
关键词
aluminum; atmospheric corrosion; crevice; environment-assisted cracking;

机译：铝;大气腐蚀;缝隙;环境辅助开裂;

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Relationship between electrochemical processes and environment-assisted crack growth under static and dynamic atmospheric conditions

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