Twin wire arc spray 공정을 통해 제작된 Fe계 비정질 합금 코팅의 염수 환경 노출에 대한 연구
Fe-based amorphous alloys are promising structural materials that have a disordered lattice structure and metastable state. Due to their advanced properties, including high hardness, high elastic limit, improved wear and corrosion resistance, Fe-based amorphous alloys have a great potential for prot...
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| Published in | 대한금속·재료학회지, 62(8) Vol. 62; no. 8; pp. 613 - 623 |
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| Main Authors | , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | Korean |
| Published |
대한금속재료학회
01.08.2024
대한금속·재료학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1738-8228 2288-8241 |
| DOI | 10.3365/KJMM.2024.62.8.613 |
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| Abstract | Fe-based amorphous alloys are promising structural materials that have a disordered lattice structure and metastable state. Due to their advanced properties, including high hardness, high elastic limit, improved wear and corrosion resistance, Fe-based amorphous alloys have a great potential for protective materials in harsh industrial fields. Twin wire arc spray (TWAS), which is a kind of thermal spray process, is a reasonable choice for depositing Fe-based amorphous coating. Industrial advantages of TWAS include simple apparatus, low cost, excellent field usability. Several previous studies of TWAS Fe-based amorphous coating have reported microstructural features, the effect of major element variation, and the effect of postheat treatment. Unfortunately, studies about Fe-based amorphous coating exposed to soluble salt solution are limited. Thus, a Fe-based amorphous coating was fabricated using TWAS in this study, and the effect of 3.5 wt.% NaCl solution exposure on its microstructure and mechanical properties was researched. Single- and multi-layer coatings were fabricated and Al-3%Ti was selected as a bond coat material. The results showed that single- and multi-layer Fe-amorphous coatings were successfully deposited on high strength low alloyed (HSLA) steel, which is a representative structural material for offshore construction. The single-layer coating showed continuous corrosion and the multi-layer coating showed delamination induced by Al-3%Ti bond coat galvanic corrosion. The Vickers hardness of the coating was retained after the long-term salt solution immersion test, thus, the feasibility of single-layer Fe-amorphous coating was confirmed. |
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| AbstractList | Fe-based amorphous alloys are promising structural materials that have a disordered latticestructure and metastable state. Due to their advanced properties, including high hardness, high elastic limit,improved wear and corrosion resistance, Fe-based amorphous alloys have a great potential for protectivematerials in harsh industrial fields. Twin wire arc spray (TWAS), which is a kind of thermal spray process,is a reasonable choice for depositing Fe-based amorphous coating. Industrial advantages of TWAS includesimple apparatus, low cost, excellent field usability. Several previous studies of TWAS Fe-based amorphouscoating have reported microstructural features, the effect of major element variation, and the effect of postheattreatment. Unfortunately, studies about Fe-based amorphous coating exposed to soluble salt solution arelimited. Thus, a Fe-based amorphous coating was fabricated using TWAS in this study, and the effect of 3.5wt.% NaCl solution exposure on its microstructure and mechanical properties was researched. Single- andmulti-layer coatings were fabricated and Al-3%Ti was selected as a bond coat material. The results showedthat single- and multi-layer Fe-amorphous coatings were successfully deposited on high strength low alloyed(HSLA) steel, which is a representative structural material for offshore construction. The single-layer coatingshowed continuous corrosion and the multi-layer coating showed delamination induced by Al-3%Ti bond coatgalvanic corrosion. The Vickers hardness of the coating was retained after the long-term salt solutionimmersion test, thus, the feasibility of single-layer Fe-amorphous coating was confirmed. KCI Citation Count: 0 Fe-based amorphous alloys are promising structural materials that have a disordered lattice structure and metastable state. Due to their advanced properties, including high hardness, high elastic limit, improved wear and corrosion resistance, Fe-based amorphous alloys have a great potential for protective materials in harsh industrial fields. Twin wire arc spray (TWAS), which is a kind of thermal spray process, is a reasonable choice for depositing Fe-based amorphous coating. Industrial advantages of TWAS include simple apparatus, low cost, excellent field usability. Several previous studies of TWAS Fe-based amorphous coating have reported microstructural features, the effect of major element variation, and the effect of postheat treatment. Unfortunately, studies about Fe-based amorphous coating exposed to soluble salt solution are limited. Thus, a Fe-based amorphous coating was fabricated using TWAS in this study, and the effect of 3.5 wt.% NaCl solution exposure on its microstructure and mechanical properties was researched. Single- and multi-layer coatings were fabricated and Al-3%Ti was selected as a bond coat material. The results showed that single- and multi-layer Fe-amorphous coatings were successfully deposited on high strength low alloyed (HSLA) steel, which is a representative structural material for offshore construction. The single-layer coating showed continuous corrosion and the multi-layer coating showed delamination induced by Al-3%Ti bond coat galvanic corrosion. The Vickers hardness of the coating was retained after the long-term salt solution immersion test, thus, the feasibility of single-layer Fe-amorphous coating was confirmed. |
| Author | Yeonwoo Yoo 권한솔 박영진 Uk Hee Nam 유연우 김도현 Eungsun Byon Yongjin Kang Hansol Kwon Youngjin Park 강용진 변응선 남욱희 Dohyeon Kim |
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| PublicationTitle | 대한금속·재료학회지, 62(8) |
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| Snippet | Fe-based amorphous alloys are promising structural materials that have a disordered lattice structure and metastable state. Due to their advanced properties,... Fe-based amorphous alloys are promising structural materials that have a disordered latticestructure and metastable state. Due to their advanced properties,... |
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| SubjectTerms | Bond coating Fe-based amorphous alloy Mechanical property Soluble salt immersion test SSIT TWAS Twin wire arc spray 재료공학 |
| Title | Twin wire arc spray 공정을 통해 제작된 Fe계 비정질 합금 코팅의 염수 환경 노출에 대한 연구 |
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