가변 곡률 제품의 TRIZ 기반 설계 개선 :Design improvement of a product with variable curvature based on TRIZ

한재영

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자료유형: 학위논문

저자정보: 한재영 (고려대학교, 고려대학교 대학원)

지도교수: 김권희

발행연도: 2017

저작권: 고려대학교 논문은 저작권에 의해 보호받습니다.

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2017

가변 곡률 제품의 TRIZ 기반 설계 개선

한재영 기계공 2017.01 학위논문

2016

가변 곡률 구조의 TRIZ 기반 설계 개선

한재영 , 김권희 한국정밀공학회 학술발표대회 논문집 2016.05 학술대회자료

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In this work, a design of mobile device is suggested with a flexible display that can be switched between flat and curved surfaces. After a few unsuccessful attempts, a noble conversion scheme between the two configurations is obtained with the application of TRIZ contradiction analysis. For physical embodiment of flat display, effects of design parameters are investigated experimentally with Taguchi method and response surface methodology. For future applications, a finite element model is suggested with experimental validation.

#Flexible

Abstract ·········································································· i
Contents ········································································· ii
List of Figures ······························································· iv
List of Tables ································································ v
1. 서론 ············································································· 1
1.1 연구 배경 ······························································· 1
1.2 연구 개요 ······························································· 4
2. 가변 곡률 구조의 설계 ············································· 5
2.1 구조 및 작동 방법 ················································ 5
2.2 초기 구조의 문제점 ·············································· 6
3. 모순해석을 통한 설계 개선 ····································· 8
3.1 기술적 모순 해석··················································· 8
3.2 모순 해석을 통한 설계 개선 ······························ 10
4. 실험계획법을 통한 최적화 ···································· 17
4.1 주요 해결 과제 ····················································· 17
4.2 설계 변수 선정 ····················································· 19
4.3 평탄도 분석 ··························································· 23
4.4 1차 최적화 ····························································· 28
4.5 반응 표면법을 이용한 추가 최적화 ··················· 30
5. CAE를 통한 추가 검증 ············································· 33
5.1 유한 요소 모델 생성 ············································ 33
5.2 유한 요소 해석 ······················································ 36
5.3 해석 결과 ······························································· 40
6. 결론 ············································································· 41
7. 참고문헌 ····································································· 42

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