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      PFC프로세스에 의한 Fe78Si9B13 비정질 합금리본 제조 및 열처리 특성에 관한 연구

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      https://www.riss.kr/link?id=T13532662

      • 저자
      • 발행사항

        공주 : 공주대학교 테크노전략대학원, 2014

      • 학위논문사항
      • 발행연도

        2014

      • 작성언어

        한국어

      • 발행국(도시)

        충청남도

      • 기타서명

        Study on the Fabrication and Heat-treatment Characteristic of Fe78Si9B13 Amorphous Alloy Ribbon by the Planar Flow Casting Process

      • 형태사항

        iv, 43장 : 삽도, 도표 ; 26 cm

      • 일반주기명

        지도교수:송창빈
        참고문헌: 40장

      • 소장기관
        • 국립공주대학교 도서관 소장기관정보
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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      In this study, as process variables influencing on surface roughness and soft magnetic property, the influence of annealing temperature, injection pressure for an air curtain and material quality of cooling roll is estimated when making amorphous alloy ribbon by PFC process.
      In surface hardness, although there is difference as Cu-Cr-Zr alloy is 67.6 and Cu-Be-Ni alloy is 95.3, there was no big difference after coating Cr and Ni.
      As a result of measuring a contact angle between these two samples, first Cu-Cr-Zr (91.0°) increases more than Cu-be-Ni (82.5°). Especially, in case of coating Cr and Ni to Cu-Cr-Zr ally, since a contract angle is over 90° and it is non-wetting or hydrophobic, it is confirmed that there is no increase of amorphous forming ability and surface roughness.
      Onset temperature of Crystallization is near 425℃. As a result of measuring toroidal core sample with 50Hz source frequency and 700A/m penetrated magnetic field according to heat treatment temperature, it shows linearity until 415℃ and increases to B700(T)=1.11T. However, in 435℃, it slightly decreases to 1.096T.
      Saturated magnetic Density shows excellent heat treatment in N2 atmosphere rather than Ar atmosphere and sharply increases until 395℃, but there is no big difference after the temperature. Also, permeability, iron loss and coercive force value have excellent heat treatment in N2 gas atmosphere rather than Ar gas.
      번역하기

      In this study, as process variables influencing on surface roughness and soft magnetic property, the influence of annealing temperature, injection pressure for an air curtain and material quality of cooling roll is estimated when making amorphous allo...

      In this study, as process variables influencing on surface roughness and soft magnetic property, the influence of annealing temperature, injection pressure for an air curtain and material quality of cooling roll is estimated when making amorphous alloy ribbon by PFC process.
      In surface hardness, although there is difference as Cu-Cr-Zr alloy is 67.6 and Cu-Be-Ni alloy is 95.3, there was no big difference after coating Cr and Ni.
      As a result of measuring a contact angle between these two samples, first Cu-Cr-Zr (91.0°) increases more than Cu-be-Ni (82.5°). Especially, in case of coating Cr and Ni to Cu-Cr-Zr ally, since a contract angle is over 90° and it is non-wetting or hydrophobic, it is confirmed that there is no increase of amorphous forming ability and surface roughness.
      Onset temperature of Crystallization is near 425℃. As a result of measuring toroidal core sample with 50Hz source frequency and 700A/m penetrated magnetic field according to heat treatment temperature, it shows linearity until 415℃ and increases to B700(T)=1.11T. However, in 435℃, it slightly decreases to 1.096T.
      Saturated magnetic Density shows excellent heat treatment in N2 atmosphere rather than Ar atmosphere and sharply increases until 395℃, but there is no big difference after the temperature. Also, permeability, iron loss and coercive force value have excellent heat treatment in N2 gas atmosphere rather than Ar gas.

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      목차 (Table of Contents)

      • 목 차
      • 제 1 장 서 론............................................................
      • 1
      • 1-1 비정질 합금의 발전..................................................................
      • 목 차
      • 제 1 장 서 론............................................................
      • 1
      • 1-1 비정질 합금의 발전..................................................................
      • 1
      • 1-2 비정질 합금의 연구 및 기술 동향.......................................
      • 6
      • 1-3 비정질 합금의 연자기적 특성................................................
      • 10
      • 1-4 PFC프로세스(Planar Flow Casting) ..................................
      • 14
      • 1-5 본 연구의 목적...........................................................................
      • 17
      • 제 2 장 실험방법.......................................................
      • 18
      • 2-1 시료준비.......................................................................................
      • 18
      • 2-2 비정질 합금리본 제조 및 열처리.........................................
      • 18
      • 2-3 시료관찰 및 분석.....................................................................
      • 20
      • 제 3 장 실험결과 및 고찰 .....................................
      • 22
      • 3-1 냉각롤 재질 및 코팅 효과 ....................................................
      • 22
      • 3-2 에어커튼용 분사가스 압력이 표면조도에 미치는 영향...
      • 27
      • 3-3 Fe78Si9B13비정질 합금리본의 열처리 온도가 연자기적 특성에
      • 미치는 영향 ..........................................................................................
      • 31
      • 제 4 장 결 론............................................................
      • 38
      • 참고문헌...........................................................................
      • 40
      • ABSTRACT....................................................................
      • 41
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