알루미늄 저온 확산코팅의 속도론적 고찰 및 확산코팅법으로 알루미나이드 코팅 및 전처리 산화된 Haynes230 합금의 내삭마특성

Aluminim pack cementation coatings on Haynes 230 alloys have been developed between 500 and 600 ℃. A single Al3Ni layer was coated on the alloys. The activation energy for growth rate of the coated layer thickness was estimated as 63.1 kJ / mol in the examined temperature range. In order to examine...

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Published in	대한금속·재료학회지, 53(10) Vol. 53; no. 10; pp. 711 - 720
Main Authors	김민석, Min Seok Kim, 박진수, Jin Soo Park, 손영일, Young Il Son, 박준식, Joon Sik Park
Format	Journal Article
Language	Korean
Published	대한금속재료학회 05.10.2015 대한금속·재료학회
Subjects	alloys coating oxidation scanning electron microscopy SEM 재료공학
Online Access	Get full text
ISSN	1738-8228 2288-8241
DOI	10.3365/KJMM.2015.53.10.711

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Abstract	Aluminim pack cementation coatings on Haynes 230 alloys have been developed between 500 and 600 ℃. A single Al3Ni layer was coated on the alloys. The activation energy for growth rate of the coated layer thickness was estimated as 63.1 kJ / mol in the examined temperature range. In order to examine the degradation behaviors, the alloys were subjected to high temperature flame via an LPG / O2 gas torch. In order to test the degradation behaviors, uncoated alloys, coated alloys and oxidized following coated alloys have been prepared. The uncoated Haynes 230 alloys exhibited a weight loss during the torch tests due to the sublimation of chromium oxide on the surface, and the coated allo specimen showed an surface melting due to low melting temperature of the coating layer. However, the coated with oxidation - treated Haynes 230 alloys maintained the original weight due to the presence of an surface in-situalumina layer. The coated microstructures and related coating kinetics are discussed in terms of structural identification and weight changes.
AbstractList	Aluminim pack cementation coatings on Haynes 230 alloys have been developed between 500 and 600 ℃. A single Al3Ni layer was coated on the alloys. The activation energy for growth rate of the coated layer thickness was estimated as 63.1 kJ / mol in the examined temperature range. In order to examine the degradation behaviors, the alloys were subjected to high temperature flame via an LPG / O2 gas torch. In order to test the degradation behaviors, uncoated alloys, coated alloys and oxidized following coated alloys have been prepared. The uncoated Haynes 230 alloys exhibited a weight loss during the torch tests due to the sublimation of chromium oxide on the surface, and the coated allo specimen showed an surface melting due to low melting temperature of the coating layer. However, the coated with oxidation - treated Haynes 230 alloys maintained the original weight due to the presence of an surface in-situalumina layer. The coated microstructures and related coating kinetics are discussed in terms of structural identification and weight changes. Aluminim pack cementation coatings on Haynes 230 alloys have been developed between 500 and 600 ℃. A single Al3Ni layer was coated on the alloys. The activation energy for growth rate of the coated layer thickness was estimated as 63.1 kJ / mol in the examined temperature range. In order to examine the degradation behaviors, the alloys were subjected to high temperature flame via an LPG / O2 gas torch. In order to test the degradation behaviors, uncoated alloys, coated alloys and oxidized following coated alloys have been prepared. The uncoated Haynes 230 alloys exhibited a weight loss during the torch tests due to the sublimation of chromium oxide on the surface, and the coated allo specimen showed an surface melting due to low melting temperature of the coating layer. However, the coated with oxidation - treated Haynes 230 alloys maintained the original weight due to the presence of an surface in-situalumina layer. The coated microstructures and related coating kinetics are discussed in terms of structural identification and weight changes. KCI Citation Count: 5
Author	박진수 Jin Soo Park 김민석 손영일 Young Il Son Min Seok Kim 박준식 Joon Sik Park
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Title	알루미늄 저온 확산코팅의 속도론적 고찰 및 확산코팅법으로 알루미나이드 코팅 및 전처리 산화된 Haynes230 합금의 내삭마특성
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