한국해양대학교

Detailed Information

Metadata Downloads

Mg 합금소재에 이온플레이팅한 Zn 박막의 전기화학적 특성

DC Field Value Language
dc.contributor.author 김영종 -
dc.date.accessioned 2017-02-22T02:24:07Z -
dc.date.available 2017-02-22T02:24:07Z -
dc.date.issued 2005 -
dc.date.submitted 2006-03-03 -
dc.identifier.uri http://kmou.dcollection.net/jsp/common/DcLoOrgPer.jsp?sItemId=000002174339 ko_KR
dc.identifier.uri http://repository.kmou.ac.kr/handle/2014.oak/8341 -
dc.description.abstract Recently, mechanical materials are requested to have the properties of higher hardness, little wear, strong corrosion resistance, excellent quality and decoration with gradual development of industries. In order to possess these properties, many kinds of material surface modification methods have been introduced and applied to the surface of bulk materials. Magnesium is the lightest metal among all structural metals(35% lighter than aluminium) and has a good strength-to-weight ratio, vibration resistance and EMR shield. Moreover, it is plentiful element, consisting 2.7% of earth crust and 0.13% of major source in ocean. However, magnesium has not been applied as much as aluminum because of its poor corrosion resistivity in most of all environments. Recent tendency in electronics and mechanical engineering fields, aiming for high performance and energy savings, requires the material to be light weight. Furthermore, new materials usually mean new bulk materials in the traditional materials development. If a new surface coating technique can be developed to improve its corrosion resistivity, magnesium will be a new candidate in various fields applications. In general, light metals, including magnesium, are difficult to plate using conventional coating techniques such as chemical or electrochemical processes. This is due to the presence of a easily-formed oxide layer. In order to limit oxidization during coating, vacuum deposition techniques can be used as an alternative to conventional techniques operating in wet or dry conditions. It is well known that coated films, particularly those deposited by plasma-assisted vacuum coating technique, are usually quite different from the bulk material in their structures and properties. For this reason, the plasma-assisted techinques, physical vapor deposition such as sputtering method, has spreaded in various industrial applications. However, few studies have been reported dealing with magnesuim with new techniques. In this work, Zn thin films were prepared on the magnesium alloy(AZ91D) substrate by environmental friendly coating technique, i.e. thermo-electron activated ion-plating method. The influence of gas pressure and substrate bias voltages on the crystal orientation and morphology of the films was investigated by X-ray diffraction and field emission scanning electron microscopy(SEM). In addition the effect of crystal orientation and morphology of the Zn thin films on corrosion behavior was evaluated by electro-chemical anodic polarization tests in deaerated 3% NaCl solution. From the experimental results, all the deposited Zn films showed obviously good corrosion resistance compare to the substrate of AZ91D. It was observed that the morphology of Zn film was changed from columnar to granular structure with gas pressure. The morphology of the films was influenced not only by gas pressure but also by bias voltage. The effect of increasing bias voltage was similar to that of decreasing gas pressure. The influences of gas pressures and bias voltages can be explained by applying the effects of adsorption and occlusion. Finally, it was concluded that the properties of Zn films can be improved greatly by controlling the crystal orientation and morphology with effective use of the plasma ion plating technique. -
dc.description.tableofcontents Abstract 제 1 장 서론 1 제 2 장 기본 이론 4 2.1 표면코팅처리 기술의 분류 4 2.2 플라즈마를 이용한 표면코팅처리 5 2.2.1 플라즈마 기초 5 2.2.2 CVD (Chemical Vapour Deposition, 화학 증착법) 9 2.2.3 PVD (Physical Vapour Deposition, 물리 증착법) 10 2.3 글로 방전과 스퍼터링 24 2.3.1 글로 방전 24 2.3.2 스퍼터링 26 2.4 표면과 표면반응 32 2.4.1 금속의 표면 32 2.4.2 분자의 흡착 36 2.4.3 산화와 환원 40 2.4.4 금속의 부식 47 2.5 박막 56 2.5.1 박막의 정의 56 2.5.2 박막의 특징 57 2.5.3 박막의 형성 58 제 3 장 실험방법 70 3.1 실험 장치 70 3.2 시험편의 준비 73 3.3 Zn 박막의 제작조건 74 3.4 Zn 박막의 특성 분석 및 평가 74 3.4.1 Zn 박막의 몰포로지 관찰 74 3.4.2 Zn 박막의 결정구조 분석 75 3.4.3 Zn 박막의 전기화학적 내식특성 평가 76 제 4 장 실험결과 및 고찰 80 4.1 Zn 박막의 몰포로지 관찰 80 4.1.1 Ar 가스 도입에 의한 몰포로지 변화 81 4.1.2 N2 가스 도입에 의한 몰포로지 변화 91 4.2 Zn 박막의 결정배향성 분석 98 4.2.1 Ar 가스 도입에 의한 결정배향성의 변화 99 4.2.2 N2 가스 도입에 의한 결정배향성의 변화 107 4.3 Ar 및 N2 가스의 흡착 및 흡장에 의한 Zn 박막의 형성관계 고찰 111 4.4 Zn 박막의 전기화학적 내식특성 평가 123 제 5 장 결론 142 참고문헌 144 -
dc.language kor -
dc.publisher 한국해양대학교 대학원 -
dc.title Mg 합금소재에 이온플레이팅한 Zn 박막의 전기화학적 특성 -
dc.title.alternative Electrochemical Characteristics of Zn Thin Films on Mg Alloy Substrates Prepared by Ion Plating Method -
dc.type Thesis -
dc.date.awarded 2005-02 -
dc.contributor.alternativeName Young-Jong -
dc.contributor.alternativeName Kim -
Appears in Collections:
기관시스템공학과 > Thesis
Files in This Item:
000002174339.pdf Download

Items in Repository are protected by copyright, with all rights reserved, unless otherwise indicated.

Browse