Effect of Microstructure on the Corrosion Behavior of as-cast and Extruded Mg-Sn-Y Alloys

Effect of Microstructure on the Corrosion Behavior of as-cast and Extruded Mg-Sn-Y Alloys

The effect of microstructure on the corrosion behavior of as-cast and extruded Mg-Sn-Y alloys was investigated using measurements of hydrogen evolution, weight loss, potentiodynamic polarization, electrochemical impedance spectroscopy, and scanning Kelvin probe force microscopy. The results showed t...

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Veröffentlicht in:Journal of the Electrochemical Society 2020-08, Vol.167 (12), p.121503, Article 121503
Hauptverfasser: Yang, Huabao, Wu, Liang, Jiang, Bin, Liu, Wenjun, Xie, Hongmei, Song, Jiangfeng, Huang, Guangsheng, Zhang, Dingfei, Pan, Fusheng
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Sprache:eng
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Electrochemistry
Materials Science
Materials Science, Coatings & Films
Mg-Sn-Y alloy
micro-galvanic corrosion
microstructure
Physical Sciences
Science & Technology
SKPFM
Technology
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container_end_page
container_issue 12
container_start_page 121503
container_title Journal of the Electrochemical Society
container_volume 167
creator Yang, Huabao
Wu, Liang
Jiang, Bin
Liu, Wenjun
Xie, Hongmei
Song, Jiangfeng
Huang, Guangsheng
Zhang, Dingfei
Pan, Fusheng
description The effect of microstructure on the corrosion behavior of as-cast and extruded Mg-Sn-Y alloys was investigated using measurements of hydrogen evolution, weight loss, potentiodynamic polarization, electrochemical impedance spectroscopy, and scanning Kelvin probe force microscopy. The results showed that the corrosion rate increased in the following order: as-cast, transversal section of bar, and longitudinal section of bar. The higher corrosion rate was related to the refinement of grain size, the micro-galvanic corrosion between second phases and -Mg matrix, and the micro-galvanic corrosion between different orientated grains. The Volta potentials of Sn3Y5 and MgSnY phases were more positive than that of the -Mg matrix. Accordingly, the Sn3Y5 and MgSnY phases acted as the cathodes for micro-galvanic corrosion and accelerated the corrosion of -Mg matrix. After extrusion, the content of second phases reduced and the grain size significantly refined. As a consequence, extrusion increased the corrosion rate of Mg-Sn-Y alloys, as the contribution of grain size refinement to increase the corrosion rate was much bigger than that of the content decrease of second phases to decrease the corrosion rate.
doi_str_mv 10.1149/1945-7111/abab27
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The results showed that the corrosion rate increased in the following order: as-cast, transversal section of bar, and longitudinal section of bar. The higher corrosion rate was related to the refinement of grain size, the micro-galvanic corrosion between second phases and -Mg matrix, and the micro-galvanic corrosion between different orientated grains. The Volta potentials of Sn3Y5 and MgSnY phases were more positive than that of the -Mg matrix. Accordingly, the Sn3Y5 and MgSnY phases acted as the cathodes for micro-galvanic corrosion and accelerated the corrosion of -Mg matrix. After extrusion, the content of second phases reduced and the grain size significantly refined. 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Electrochem. Soc</addtitle><description>The effect of microstructure on the corrosion behavior of as-cast and extruded Mg-Sn-Y alloys was investigated using measurements of hydrogen evolution, weight loss, potentiodynamic polarization, electrochemical impedance spectroscopy, and scanning Kelvin probe force microscopy. The results showed that the corrosion rate increased in the following order: as-cast, transversal section of bar, and longitudinal section of bar. The higher corrosion rate was related to the refinement of grain size, the micro-galvanic corrosion between second phases and -Mg matrix, and the micro-galvanic corrosion between different orientated grains. The Volta potentials of Sn3Y5 and MgSnY phases were more positive than that of the -Mg matrix. Accordingly, the Sn3Y5 and MgSnY phases acted as the cathodes for micro-galvanic corrosion and accelerated the corrosion of -Mg matrix. 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The Volta potentials of Sn3Y5 and MgSnY phases were more positive than that of the -Mg matrix. Accordingly, the Sn3Y5 and MgSnY phases acted as the cathodes for micro-galvanic corrosion and accelerated the corrosion of -Mg matrix. After extrusion, the content of second phases reduced and the grain size significantly refined. As a consequence, extrusion increased the corrosion rate of Mg-Sn-Y alloys, as the contribution of grain size refinement to increase the corrosion rate was much bigger than that of the content decrease of second phases to decrease the corrosion rate.</abstract><cop>PENNINGTON</cop><pub>IOP Publishing</pub><doi>10.1149/1945-7111/abab27</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0002-9988-8593</orcidid><orcidid>https://orcid.org/0000-0002-3593-9822</orcidid></addata></record>
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subjects Electrochemistry
Materials Science
Materials Science, Coatings & Films
Mg-Sn-Y alloy
micro-galvanic corrosion
microstructure
Physical Sciences
Science & Technology
SKPFM
Technology
title Effect of Microstructure on the Corrosion Behavior of as-cast and Extruded Mg-Sn-Y Alloys
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