한국해양대학교

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고탄소 공구강 분말의 직접 에너지 적층 공정 시 결함 방지를 위한 중간층 적용에 관한 연구

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dc.contributor.advisor 심도식 -
dc.contributor.author 정예은 -
dc.date.accessioned 2022-04-08T17:43:11Z -
dc.date.available 2022-04-08T17:43:11Z -
dc.date.created 20210311144400 -
dc.date.issued 2021 -
dc.identifier.uri http://repository.kmou.ac.kr/handle/2014.oak/12627 -
dc.identifier.uri http://kmou.dcollection.net/common/orgView/200000376358 -
dc.description.abstract In recent years, with the development of metal 3D printing technologies using a laser or an electron beam, technologies to reinforce the surface of metal components in various shapes, have been applied. In particular, direct energy deposition (DED), an additive manufacturing (AM) technique which is used to manufacture various 3D products by depositing materials on a metal substrate using a layer-by-layer method, has been researched as a technology to repair metal components and reinforce surfaces. This technology can produce parts with lower residual stress and mechanical properties when compared to the parts produced by conventional methods. It can also minimize the HAZ, which causes property degradation, and it has been commonly used for hardfacing by depositing high-hardness powder on the metal surface. Owing to these benefits, the DED process is expected to replace the conventional methods. The aim of this study is to obtain high surface hardness and a perfectly bonding between the AISI M2 deposits and a substrate utilizing a intermediate layer that is AISI P21. To prevent interfacial cracks between the M2 deposits and the substrate, the P21 powder is pre-deposited onto a SCM420 substrate, before the deposition of M2 powders. Interfacial cracks occurring between the deposits and substrate and changes in the microstructure of the intermediate layer were examined. The influence of intermediate layer on the mechanical properties was then analyzed on the deposited material. These properties were compared with those of the carburized SCM420. As a result of the bending test for evaluating the bonding strength, the crack at the interface did not propagate. Elongation and Absorbed energy were also remarkable. High wear resistance and tensile strength were obtained due to the M2 deposited layer on the surface. In the case of hardfacing with high carbon tool steel using P21 intermediate layer, it is confirmed that interfacial defects can be prevented by depositing an intermediate layer with ductile properties and then surface hardness was remarkable due to the M2 high carbon tool steel powder. -
dc.description.tableofcontents 1. 서론 1 1.1 연구배경 1 1.2 국내·외 연구 동향 4 1.3 연구 목적 7 2. 중간층 적용을 통한 계면 결함 방지 8 2.1 직접 에너지 적층 공정 8 2.2 실험장비 및 재료 10 2.3 적층특성 분석 15 2.3.1 적층 후 결함 관찰 16 2.4접합강도 평가 20 2.4.1 실험준비 및 방법 20 2.4.2 굽힘 시험 결과 22 3. 중간층 적용에 따른 기계적 특성 평가 29 3.1 실험준비 및 방법 29 3.2 실험 결과 33 3.2.1 미세조직 관찰 및 성분분석 변화 33 3.2.2 경도변화 37 3.2.3 내마모성 평가 39 3.2.4 샤르피 충격 시험 44 3.2.5 인장 시험 50 4. 이종소재 혼합분말을 이용한 중간층 적용 56 4.1 실험준비 및 방법 57 4.2 실험결과 58 4.2.1 미세조직 관찰 58 4.2.2 성분분석 변화 61 4.2.3 경도변화 63 4.2.4 접합강도 평가 65 5. 결론 및 향후계획 71 참고문헌 75 -
dc.language kor -
dc.publisher 한국해양대학교 대학원 -
dc.rights 한국해양대학교 논문은 저작권에 의해 보호받습니다. -
dc.title 고탄소 공구강 분말의 직접 에너지 적층 공정 시 결함 방지를 위한 중간층 적용에 관한 연구 -
dc.title.alternative A Study on Effect of Intermediate layer to Prevent Interfacial Cracks for Build-up of High Carbon Tool Steel by using Directed Energy Deposition -
dc.type Dissertation -
dc.date.awarded 2021. 2 -
dc.embargo.liftdate 2021-03-11 -
dc.contributor.alternativeName Jeong Ye-Eun -
dc.contributor.department 대학원 조선기자재공학과 -
dc.contributor.affiliation 한국해양대학교 대학원 조선기자재공학과 -
dc.description.degree Master -
dc.identifier.bibliographicCitation [1]정예은, “고탄소 공구강 분말의 직접 에너지 적층 공정 시 결함 방지를 위한 중간층 적용에 관한 연구,” 한국해양대학교 대학원, 2021. -
dc.subject.keyword Direct energy deposition -
dc.subject.keyword Hardfacing -
dc.subject.keyword Tool steel -
dc.subject.keyword Interfacial crack -
dc.subject.keyword Intermediate layer -
dc.identifier.holdings 000000001979▲200000001935▲200000376358▲ -
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조선기자재공학과 > Thesis
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