Characteristics of plasma electrolytic oxide coatings on Mg-Al-Zn alloy prepared by powder metallurgy

Mg-6 wt.%Al-1 wt.%Zn alloy powders were produced by gas atomization, and subsequently compacted and sintered under various conditions of temperature, time, and pressure. The bulk Mg-6 wt.%Al-1 wt.%Zn alloy was coated by the plasma electrolytic oxidation (PEO) method. The optimum condition of compact...

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Published in	Metals and materials international Vol. 15; no. 5; pp. 759 - 764
Main Authors	Chang, Si Young, Lee, Du Hyung, Kim, Bo Sik, Kim, Taek Soo, Song, Yo-Seung, Kim, Sung Ho, Lee, Chan Bok
Format	Journal Article
Language	English
Published	Springer The Korean Institute of Metals and Materials 01.10.2009 Springer Nature B.V 대한금속·재료학회
Subjects	Alloys Characterization and Evaluation of Materials Chemical vapor deposition Chemistry and Materials Science Corrosion resistance Engineering Thermodynamics Heat and Mass Transfer Machines Magnetic Materials Magnetism Manufacturing Materials Science Metallic Materials Powder metallurgy Processes Solid Mechanics 재료공학 Mg-Al-Zn alloy plasma electrolytic oxidation mechanical and corrosion properties gas atomization sintering
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ISSN	1598-9623 2005-4149
DOI	10.1007/s12540-009-0759-8

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Abstract	Mg-6 wt.%Al-1 wt.%Zn alloy powders were produced by gas atomization, and subsequently compacted and sintered under various conditions of temperature, time, and pressure. The bulk Mg-6 wt.%Al-1 wt.%Zn alloy was coated by the plasma electrolytic oxidation (PEO) method. The optimum condition of compaction and sintering for PEO coatings was established based on the investigation of microstructure, microhardness, and corrosion properties of coatings which were compared to those of cast Mg-6 wt.%Al alloy. The coatings on Mg-6 wt.%Al and Mg-6 wt.%Al-1 wt.%Zn alloys consisted of MgO, MgAl 2 O 4 , and Mg 2 SiO 4 . The Mg-6 wt.%Al-1 wt.%Zn alloy compacted at room temperature for 10 min and sintered at 893 K for 3 h showed the most porous and nonuniform coating layer because the coatings had grown through grain boundaries that resulted from poor bonding between powder particles in the substrate. However, the coated Mg-6 wt.%Al-1 wt.%Zn alloy hot-compacted at 593 K for 10 min had the thickest coating layer and the highest microhardness. In addition, it demonstrated the best corrosion resistance as verified by polarization curves in 3.5% NaCl solution.
AbstractList	Mg-6 wt.%Al-1 wt.%Zn alloy powders were produced by gas atomization, and subsequently compacted and sintered under various conditions of temperature, time, and pressure. The bulk Mg-6 wt.%Al-1 wt.%Zn alloy was coated by the plasma electrolytic oxidation (PEO) method. The optimum condition of compaction and sintering for PEO coatings was established based on the investigation of microstructure, microhardness, and corrosion properties of coatings which were compared to those of cast Mg-6 wt.%Al alloy. The coatings on Mg-6 wt.%Al and Mg-6 wt.%Al-1 wt.%Zn alloys consisted of MgO, MgAl2O4, and Mg2SiO4. The Mg-6 wt.%Al-1 wt.%Zn alloy compacted at room temperature for 10 min and sintered at 893 K for 3 h showed the most porous and nonuniform coating layer because the coatings had grown through grain boundaries that resulted from poor bonding between powder particles in the substrate. However, the coated Mg-6 wt.%Al-1 wt.%Zn alloy hot-compacted at 593 K for 10 min had the thickest coating layer and the highest microhardness. In addition, it demonstrated the best corrosion resistance as verified by polarization curves in 3.5% NaCl solution. KCI Citation Count: 30 Mg-6 wt.%Al-1 wt.%Zn alloy powders were produced by gas atomization, and subsequently compacted and sintered under various conditions of temperature, time, and pressure. The bulk Mg-6 wt.%Al-1 wt.%Zn alloy was coated by the plasma electrolytic oxidation (PEO) method. The optimum condition of compaction and sintering for PEO coatings was established based on the investigation of microstructure, microhardness, and corrosion properties of coatings which were compared to those of cast Mg-6 wt.%Al alloy. The coatings on Mg-6 wt.%Al and Mg-6 wt.%Al-1 wt.%Zn alloys consisted of MgO, MgAl^sub 2^O^sub 4^, and Mg^sub 2^SiO^sub 4^. The Mg-6 wt.%Al-1 wt.%Zn alloy compacted at room temperature for 10 min and sintered at 893 K for 3 h showed the most porous and nonuniform coating layer because the coatings had grown through grain boundaries that resulted from poor bonding between powder particles in the substrate. However, the coated Mg-6 wt.%Al-1 wt.%Zn alloy hot-compacted at 593 K for 10 min had the thickest coating layer and the highest microhardness. In addition, it demonstrated the best corrosion resistance as verified by polarization curves in 3.5% NaCl solution.[PUBLICATION ABSTRACT] Mg-6 wt.%Al-1 wt.%Zn alloy powders were produced by gas atomization, and subsequently compacted and sintered under various conditions of temperature, time, and pressure. The bulk Mg-6 wt.%Al-1 wt.%Zn alloy was coated by the plasma electrolytic oxidation (PEO) method. The optimum condition of compaction and sintering for PEO coatings was established based on the investigation of microstructure, microhardness, and corrosion properties of coatings which were compared to those of cast Mg-6 wt.%Al alloy. The coatings on Mg-6 wt.%Al and Mg-6 wt.%Al-1 wt.%Zn alloys consisted of MgO, MgAl 2 O 4 , and Mg 2 SiO 4 . The Mg-6 wt.%Al-1 wt.%Zn alloy compacted at room temperature for 10 min and sintered at 893 K for 3 h showed the most porous and nonuniform coating layer because the coatings had grown through grain boundaries that resulted from poor bonding between powder particles in the substrate. However, the coated Mg-6 wt.%Al-1 wt.%Zn alloy hot-compacted at 593 K for 10 min had the thickest coating layer and the highest microhardness. In addition, it demonstrated the best corrosion resistance as verified by polarization curves in 3.5% NaCl solution.
Author	Chang, Si Young Kim, Taek Soo Song, Yo-Seung Lee, Du Hyung Kim, Sung Ho Lee, Chan Bok Kim, Bo Sik
Author_xml	– sequence: 1 givenname: Si Young surname: Chang fullname: Chang, Si Young email: sychang@kau.ac.kr organization: Department of Materials Engineering, Korea Aerospace University – sequence: 2 givenname: Du Hyung surname: Lee fullname: Lee, Du Hyung organization: Korea Aerospace University – sequence: 3 givenname: Bo Sik surname: Kim fullname: Kim, Bo Sik organization: Korea Aerospace University – sequence: 4 givenname: Taek Soo surname: Kim fullname: Kim, Taek Soo organization: Division for Advanced Materials, Korea Institute of Industrial Technology – sequence: 5 givenname: Yo-Seung surname: Song fullname: Song, Yo-Seung organization: Department of Materials Engineering, Korea Aerospace University – sequence: 6 givenname: Sung Ho surname: Kim fullname: Kim, Sung Ho organization: Nuclear Materials Tech. Dev. Division, Korea Atomic Energy Research Institute – sequence: 7 givenname: Chan Bok surname: Lee fullname: Lee, Chan Bok organization: Nuclear Materials Tech. Dev. Division, Korea Atomic Energy Research Institute
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Cites_doi	10.4028/www.scientific.net/SSP.124-126.763 10.4028/www.scientific.net/MSF.539-543.1224 10.1016/j.matlet.2005.11.066 10.4028/www.scientific.net/MSF.488-489.9 10.1016/S0921-5093(97)80089-5 10.1016/j.apsusc.2005.01.007 10.1007/BF03027525 10.1016/S0257-8972(99)00441-7 10.1016/j.surfcoat.2004.11.045 10.2320/matertrans.42.1172
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SubjectTerms	Alloys Characterization and Evaluation of Materials Chemical vapor deposition Chemistry and Materials Science Corrosion resistance Engineering Thermodynamics Heat and Mass Transfer Machines Magnetic Materials Magnetism Manufacturing Materials Science Metallic Materials Powder metallurgy Processes Solid Mechanics 재료공학
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Title	Characteristics of plasma electrolytic oxide coatings on Mg-Al-Zn alloy prepared by powder metallurgy
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