RISS 학술연구정보서비스

검색

인기 검색어

    다국어 입력

    http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.

    변환된 중국어를 복사하여 사용하시면 됩니다.

    예시)
    • 中文 을 입력하시려면 zhongwen을 입력하시고 space를누르시면됩니다.
    • 北京 을 입력하시려면 beijing을 입력하시고 space를 누르시면 됩니다.
    닫기
    KCI등재

    고규소 알루미늄 합금의 표면에 PEO 공정에 의하여 형성된 산화물 층의 부식 거동 = Corrosion behavior of oxide layer formed on surface of high silicon aluminum alloy by PEO process

    한글로보기

    https://www.riss.kr/link?id=A108731686

    • 0

      상세조회
    • 0

      다운로드
    서지정보 열기
    • 내보내기
    • 내책장담기
    • 공유하기
    • 오류접수

    부가정보

    다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

    Ceramic oxide layer was formed on the surface of high silicon aluminum alloy by using PEO (plasma electrolytic oxidation) process. The microstructure of the oxide layer was analyzed using scanning electron microscopy (SEM) and x-ray diffraction patterns (XRD). The high silicon aluminum alloy prior to PEO process consists of Al, Si and Al2Cu phases in XRD analysis, whereas Al2Cu phase selectively disappeared after PEO treatment. Considerable decrease of relative intensity in most of peaks in XRD results of the high silicon aluminum alloy treated by PEO process was observed. It may be attributed to the formation of amorphous phases after PEO treatment. The corrosion behavior of the high silicon aluminum alloy treated by PEO process was investigated using electrochemical impedance spectroscopy (EIS) and other electrochemical techniques (i.e., open circuit potential and polarization curve). Electroanalytical studies indicated that the high silicon aluminum alloy treated by PEO process shows greater corrosion resistance than that untreated by PEO process.
    번역하기

    Ceramic oxide layer was formed on the surface of high silicon aluminum alloy by using PEO (plasma electrolytic oxidation) process. The microstructure of the oxide layer was analyzed using scanning electron microscopy (SEM) and x-ray diffraction patter...

    Ceramic oxide layer was formed on the surface of high silicon aluminum alloy by using PEO (plasma electrolytic oxidation) process. The microstructure of the oxide layer was analyzed using scanning electron microscopy (SEM) and x-ray diffraction patterns (XRD). The high silicon aluminum alloy prior to PEO process consists of Al, Si and Al2Cu phases in XRD analysis, whereas Al2Cu phase selectively disappeared after PEO treatment. Considerable decrease of relative intensity in most of peaks in XRD results of the high silicon aluminum alloy treated by PEO process was observed. It may be attributed to the formation of amorphous phases after PEO treatment. The corrosion behavior of the high silicon aluminum alloy treated by PEO process was investigated using electrochemical impedance spectroscopy (EIS) and other electrochemical techniques (i.e., open circuit potential and polarization curve). Electroanalytical studies indicated that the high silicon aluminum alloy treated by PEO process shows greater corrosion resistance than that untreated by PEO process.

    더보기

    참고문헌 (Reference)

    1 F. Xu, "The mechanism of PEO process on Al–Si alloys with the bulk primary silicon" 255 : 9531-9538, 2009

    2 Z. Yang, "The correlation between the Na2SiO39H2O concentrations and the characteristics of plasma electrolyte oxidation ceramic coatings" 45 : 19388-19394, 2019

    3 L. Wang, "Silicon effects on formation of EPO oxide coatings on aluminum alloys" 494 : 211-218, 2006

    4 C. J. Hu, "Preparation of ceramic coatings on an Al-Si alloy by the incorporation of ZrO2 particles in microarc oxidation" 258 : 275-283, 2014

    5 W. Xue, "Preparation of anti-corrosion films by microarc oxidation on an Al–Si alloy" 253 : 6118-6124, 2007

    6 J. He, "Influence of silicon on growth process of plasma electrolytic oxidation coating on Al–Si alloy" 471 : 395-399, 2009

    7 E. Matykina, "Incorporation of zirconia into coatings formed by DC plasma electrolytic oxidation of aluminium in nanoparticle suspensions" 255 : 2830-2839, 2008

    8 E. V. Parfenov, "Impedance spectroscopy characterisation of PEO process and coatings on aluminium" 516 : 428-432, 2007

    9 W. Liu, "Effects of graphene on structure and corrosion resistance of plasma electrolyte oxidation coatings formed on D16T Al alloy" 475 : 645-659, 2019

    10 Y. J. Oh, "Effects of alloying elements on microstructure and protective properties of Al2O3 coatings formed on aluminum alloy substrates by plasma electrolysis" 204 : 141-148, 2009

    1 F. Xu, "The mechanism of PEO process on Al–Si alloys with the bulk primary silicon" 255 : 9531-9538, 2009

    2 Z. Yang, "The correlation between the Na2SiO39H2O concentrations and the characteristics of plasma electrolyte oxidation ceramic coatings" 45 : 19388-19394, 2019

    3 L. Wang, "Silicon effects on formation of EPO oxide coatings on aluminum alloys" 494 : 211-218, 2006

    4 C. J. Hu, "Preparation of ceramic coatings on an Al-Si alloy by the incorporation of ZrO2 particles in microarc oxidation" 258 : 275-283, 2014

    5 W. Xue, "Preparation of anti-corrosion films by microarc oxidation on an Al–Si alloy" 253 : 6118-6124, 2007

    6 J. He, "Influence of silicon on growth process of plasma electrolytic oxidation coating on Al–Si alloy" 471 : 395-399, 2009

    7 E. Matykina, "Incorporation of zirconia into coatings formed by DC plasma electrolytic oxidation of aluminium in nanoparticle suspensions" 255 : 2830-2839, 2008

    8 E. V. Parfenov, "Impedance spectroscopy characterisation of PEO process and coatings on aluminium" 516 : 428-432, 2007

    9 W. Liu, "Effects of graphene on structure and corrosion resistance of plasma electrolyte oxidation coatings formed on D16T Al alloy" 475 : 645-659, 2019

    10 Y. J. Oh, "Effects of alloying elements on microstructure and protective properties of Al2O3 coatings formed on aluminum alloy substrates by plasma electrolysis" 204 : 141-148, 2009

    11 M. M. Krishtal, "Effect of structure of aluminum-silicon alloys on the process of formation and characteristics of oxide layer in microarc oxidizing" 46 : 377-384, 2004

    12 F. Monfort, "Development of anodic coatings on aluminium under sparking conditions in silicate electrolyte" 49 : 672-693, 2007

    13 K. Nogita, "Determination of strontium segregation in modified hypoeutectic Al–Si alloy by micro x-ray fluorescence analysis" 55 : 787-790, 2006

    14 D. Y. Hwang, "Corrosion resistance of oxide layers formed on AZ91 Mg alloy in KMnO4 electrolyte by plasma electrolytic oxidation" 54 : 5479-5485, 2009

    15 박덕용 ; 장충현 ; 오용준 ; Nosang V. Myung ; 유봉영, "Corrosion behaviors of plasma electrolytic oxidation (PEO) treated highsilicon aluminum alloys" 한국표면공학회 55 (55): 144-155, 2022

    16 Y. Zhang, "Corrosion behavior and structure of plasma electrolytic oxidation coated aluminum alloy" 12 : 6788-6800, 2017

    17 W. Liu, "Corrosion and wear behavior of PEO coatings on D16T aluminum alloy with different concentrations of graphene" 10 : 249-, 2020

    18 R. Aliramezani, "Characterization and properties of PEO coatings on 7075 Al alloy grown in alkaline silicate electrolyte containing KMnO4 additive" 329 : 250-261, 2017

    19 L. O. Snizhko, "Anodic processes in plasma electrolytic oxidation of aluminium in alkaline solutions" 49 : 2085-2095, 2004

    20 W. Xue, "Analyses of microarc oxidation coatings formed on Si-containing cast aluminum alloy in silicate solution" 42 : 1273-1277, 2002

    21 K. B. Shah, "Aging temperature and abrasive wear behaviour of cast Al–(4%, 12%, 20%)Si–0.3% Mg alloys" 28 : 1968-1974, 2007

    22 송의석 ; 김용태 ; 최진섭, "6061 알루미늄 합금의 플라즈마 전해산화 피막의 표면기공율 및 부식특성에 미치는 Na3PO4 농도 및 NaAlO2 봉공처리의 영향" 한국표면공학회 52 (52): 117-122, 2019

    더보기

    동일학술지(권/호) 다른 논문

    분석정보

    View

    상세정보조회

    0

    Usage

    원문다운로드

    0

    대출신청

    0

    복사신청

    0

    EDDS신청

    0

    동일 주제 내 활용도 TOP

    더보기

    주제

    연도별 연구동향

    연도별 활용동향

    연관논문

    연구자 네트워크맵

    공동연구자 (7)

    유사연구자 (20) 활용도상위20명

    이 자료와 함께 이용한 RISS 자료

    나만을 위한 추천자료

    해외이동버튼