고종횡비 범프 형성을 위한 리버스 옵셋용 무연 솔더 페이스트 제조에 관한 연구 :

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자료유형: 학위논문

저자정보: 손민정 (부경대학교, 부경대학교 대학원)

지도교수: 남수용

발행연도: 2014

저작권: 부경대학교 논문은 저작권에 의해 보호받습니다.

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이 논문의 연구 히스토리 (2)

2014

고종횡비 범프 형성을 위한 리버스 옵셋용 무연 솔더 페이스트 제조에 관한 연구

손민정 인쇄공 2014.01 학위논문

2013

고종횡비를 위한 Sn-Ag-Cu계 리버스 옵셋 프린팅용 솔더 페이스트의 유변학적 물성

손민정 , 이택민 , 남수용 외 2명 한국생산제조학회 학술발표대회 논문집 2013.10 학술대회자료

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Recently, there are many methods of forming bumps in flip chip bond packaging such as evaporation, electroplating, screen printing, solder ball jetting super-juffit, stud. But because I/O (in put/out put) bump is required a miniaturization, high density and uniformity, a need about
improved technology is being requested. A reverse offset printing have received much attention as demands for fine patterning have increased in the field of printed electronics. The reverse offset printing that can facilitate fine patterns for integration and miniaturization of electronic devices is suitable for forming fine solder bumps. The advantage of
reverse offset printing is the control of uniform thickness. The solder bump printing for flip chip packaging can be a promising application field of printed electronics, if the reverse offset printing which enable uniform and fine patterning is adapted. However, the solder bump
printing with high aspect ratio is a challenging goal in reverse offset printing, which definitely hinges on the control of rheological characteristics of paste. In this study, we developed SnAgCu solder pastes of reverse offset type. The viscosity, Thixotropy Index, G'' (storage modulus), G" (loss modulus) of paste were evaluated with a
rheometer and analyzed their effects on the printability and the formation of thick film by printing. As a result, the paste with high Thixotropy Index and outstanding recovery could form the high aspect ratio of solder bumps in reverse offset printing. In addition, electrical performance by reflow process and possibility of device were evaluated.

목차 ··························································································································ⅰ
List of Figures ·····································································································ⅲ
List of Tables ·······································································································ⅴ
Abstract ··················································································································ⅵ
Ⅰ. 서 론 ·················································································································1
Ⅱ. 이 론 ·················································································································4
1. 무연 솔더 페이스트 ···························································································4
2. 레올로지 ···············································································································5
가. 점도 ···················································································································5
나. 점탄성 ···············································································································7
다. Thixotropy ······································································································9
3. 반도체 패키징 기술 ·························································································11
4. 인쇄 전자 기술 ·································································································13
가. 리버스 옵셋 인쇄 ·························································································13
나. 바 코팅 ···········································································································15
다. 슬롯다이 코팅 ·······························································································15
Ⅲ. 실 험 ···············································································································17
1. 무연 솔더 페이스트 ·························································································17
가. 재료 ·················································································································17
나. 실험방법 ·········································································································18
(1) 솔더 페이스트의 구성 ···············································································18
(2) 블랑켓의 용매 흡수, 배출 시험 ······························································20
(3) 솔더 페이스트의 제조 방법 ·····································································20
(4) 리버스 옵셋 인쇄 장비와 인쇄 조건 ·····················································21
(5) 리플로우 ······································································································22
다. 측정 및 분석 ·································································································22
Ⅳ. 결과 및 고찰 ···································································································25
1. 블랑켓 흡수, 배출 시험 ··················································································25
2. 레올로지 특성 분석 ·························································································28
3. 인쇄성 평가 및 솔더 범프 형상 분석 ·························································33
4. 리플로우 특성 및 전기 전도성 분석 ···························································40
5. 데이지 체인을 이용한 전기 전도성 분석 ···················································45
Ⅴ. 결 론 ···············································································································49
참고문헌 ··················································································································51

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