PVD法에 의한 Zn-Mg 合金 薄膜의 製作과 電氣化學的 耐蝕特性
DC Field | Value | Language |
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dc.contributor.author | 이경희 | - |
dc.date.accessioned | 2017-02-22T02:26:39Z | - |
dc.date.available | 2017-02-22T02:26:39Z | - |
dc.date.issued | 2006 | - |
dc.date.submitted | 2006-02-10 | - |
dc.identifier.uri | http://kmou.dcollection.net/jsp/common/DcLoOrgPer.jsp?sItemId=000002174399 | ko_KR |
dc.identifier.uri | http://repository.kmou.ac.kr/handle/2014.oak/8416 | - |
dc.description.abstract | The Zn coatings have been well known as the most suitable surface modification for the corrosion protection metal. Recently, however, severe corrosive environments issue came with great attention, hence, development of better corrosion resistant Zn coating method became to be required. That is, the Zn coatings have occasionally some limitations which restrict its use in certain applications. Although undamaged Zn coating on steel gives a good corrosion resistance, the protection is not so good because the corrosion can occur at an accelerated rate if the coatings are scratched or otherwise damaged. Thus coatings offering a better galvanic or sacrificial protection for steel are desirable than offering by pure Zn. To this end, Zn-Mg alloy coating films were studied. In this study, the Zn and Mg alloy thin films were prepared onto the cold-rolled steel(SPCC) substrates by vacuum evaporation and ion plating method. Moreover, the influence of gas pressures and substrate bias voltage, on composition ratio, morphology and crystal orientation of the Zn-Mg alloy thin films were investigated by energy dispersive X-ray spectroscopy(EDX), scanning electron microscopy(SEM) and X-ray diffraction(XRD), respectively. From the experimental results, (100-x)ZnㆍxMg alloy films are prepared onto cold-rolled steel substrates | - |
dc.description.abstract | where x ranged from 0 to about 38 atomic%. The alloy films show microcrystalline and grain structures respectively in accordance with preparation conditions such as composition ratio of Zn and Mg or gas pressures etc.. And X-ray diffraction analysis indicates not only the presence of the Zn-Mg thin films with forced solid solution but also the one of MgZn2 alloy films partly. In addition the influence of Mg in the alloy film, morphology and crystal orientation of the Zn-Mg alloy films on corrosion behavior is evaluated by electro-chemical anodic polarization tests in deaerated 3% NaCl solution. From the measured results, all the prepared Zn-Mg alloy films obviously showed good corrosion resistance compared with 99.99% Zn and 99.99% Mg ingots for evaporation metal. It is, therefore, thought that Mg element in the Zn-Mg films, produces smaller and denser grain structure so that they may improve the formation of homogeneous passive layer in corrosion environment. | - |
dc.description.tableofcontents | 제 1 장 서 론 = 1 제 2 장 기본 이론 = 5 2.1 금속 = 5 2.1.1 원자의 구조 = 5 2.1.2 금속 결합 = 6 2.1.3 금속의 표면 =7 2.2 금속 표면에서 일어나는 여러 가지 반응 = 12 2.2.1 분자의 흡착ㆍ흡장 = 12 2.2.2 산화와 환원 = 16 2.2.3 금속의 부식 = 23 2.3 표면처리 = 34 2.3.1 표면처리기술의 분류 = 34 2.3.2 CVD = 35 2.3.3 PVD = 36 2.3.4 플라즈마 = 48 2.4 박막 = 52 2.4.1 박막의 정의 = 52 2.4.2 박막의 특성 = 53 2.4.3 박막의 형성 = 54 제 3 장 실험방법 = 66 3.1 실험장치 및 제작 조건 = 66 3.1.1 실험장치 = 66 3.1.2 시험편의 준비 = 70 3.1.3 Zn-Mg 합금 박막의 제작 조건 = 72 3.2 Zn-Mg 합금 박막의 특성 분석 및 평가 = 74 3.2.1 조성원소 분석 = 74 3.2.2 모폴로지 관찰 = 74 3.2.3 결정구조 분석 = 74 3.2.4 전기화학적 내식특성 평가 = 76 제 4 장 실험결과 및 고찰 = 78 4.1 Zn-Mg 합금 박막의 조성원소 분석 = 78 4.1.1 아르곤 가스 도입에 의한 결과 분석 = 79 4.1.2 질소 가스 도입에 의한 결과 분석 = 83 4.2 Zn-Mg 합금 박막의 표면 및 단면 모폴로지 관찰 = 84 4.2.1 아르곤 가스 도입에 의한 결과 관찰 = 85 4.2.2 질소 가스 도입에 의한 결과 관찰 = 92 4.3 Zn-Mg 합금 박막의 결정배향성 분석 = 98 4.3.1 아르곤 가스 도입에 의한 결과 분석 = 102 4.3.2 질소 가스 도입에 의한 결과 분석 = 110 4.4 분위기 가스의 흡착ㆍ흡장에 의한 Zn-Mg 합금 박막의 형성관계 고찰 = 116 4.5 Zn-Mg 합금 박막의 내식특성 평가 = 121 제 5 장 결론 = 139 참고문헌 = 142 | - |
dc.language | kor | - |
dc.publisher | 한국해양대학교 대학원 | - |
dc.title | PVD法에 의한 Zn-Mg 合金 薄膜의 製作과 電氣化學的 耐蝕特性 | - |
dc.title.alternative | Preparation of Zinc-Magnesium Alloy Thin Films by PVD Method and Their Electrochemical Corrosion Resistance | - |
dc.type | Thesis | - |
dc.date.awarded | 2006-02 | - |
dc.contributor.alternativeName | Lee | - |
dc.contributor.alternativeName | Kyoung-Hee | - |
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