• 대한치과보철학회지
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• 제38권5호
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• pp.704-723
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• 2000

This study was undertaken to evaluate the tensile bond strength of In-Ceram alumina core treat-ed by ion assisted reaction(IAR). Ion assisted reaction is a prospective surface modification technique without damage by a keV low energy ion beam irradiation in reactive gas environments or reactive ion itself. 120 In-Ceram specimens were fabricated according to manufacturer's directions and divided into six groups by surface treatment methods of In-Ceram alumina core. SD group(control group): sandblasting SL group: sandblasting + silane treatment SC group: sandblasting + Siloc treatment IAR I group: sandblasting + Ion assisted reaction with argon ion and oxygen gas IAR II group: sandblasting + Ion assisted reaction with oxygen ion and oxygen gas IAR III group: sandblasting + Ion assisted reaction with oxygen ion only For measuring of tensile bond strength, pairs of specimens within a group were bonded with Panavia 21 resin cement using special device secured that the film thickness was $80{\mu}m$. The results of tensile strength were statistically analyzed with the SPSS release version 8.0 programs. Physical change like surface roughness of In-Ceram alumina core treated by ion assistad reaction was evaluated by Contact Angle Measurement, Scanning Electron Microscopy, Atomic Force Microscopy; chemical surface change was evaluated by X-ray Photoelectron Spectroscopy. The results as follows: 1. In tensile bond strength, there were no statistically significant differences with SC group, IAR groups and SL group except control group(P<0.05). 2. Contact angle measurement showed that wettability of In-Ceram alumina core was enhanced after IAR treatment. 3. SEM and AFM showed that surface roughness of In-Ceram alumina core was not changed after IAR treatment. 4. XPS showed that IAR treatment of In-Ceram alumina core was enabled to create a new functional layer. A keV IAR treatment of In-Ceram alumina core could enhanced tensile bond strength with resin cement. In the future, this ion assisted reaction may be used effectively in various dental materials as well as in In-Ceram to promote the bond strength to natural tooth structure.

• 대한치과보철학회지
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• 제45권4호
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• pp.546-554
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• 2007

Statement of problem: Die materials require abrasion resistance, dimensional stability with time, and high surface wettability for adequate material properties. Wear of gypsum materials is a significant problem in the fabrication of accurately fitting cast prosthetic devices. So It has been recommended that the use of die hardener before carving or burnishing of the wax pattern. Purpose: The purpose of this study was to compare the abrasion resistance and surface microhardness(Knoop) with 3 commonly used gypsum die materials(MG Crystal Rock, Super plumstone, GC $FUJIROCK^{(R)}$ EP) with and without the application of 2 die hardeners. Material and methods: Three die materials were evaluated for abrasion resistance and surface microhardness after application of 2 die hardeners(Die hardener and Stone die & plaster hardener). Thirty specimens of each gypsum material were fabricated using an impression of resin die(Pattern resin; GC Corporation, Japan) with 1-mm high ridges, sloped 90 degrees. Gypsum materials were mixed according to manufacturer's recommendations and allowed to set 24 hours before coating. Specimens were arbitrary assigned to 1 of 3 treatment subgroups (n=10/subgroup): no treatment(control), coated with Die hardener, and coated with Stone die & plaster hardener. Abrasion resistance(measured by weight loss) was evaluated using device in 50g mass perpendicular to the ridges. Knoop hardness was determined by loading each specimen face 5 times for 15 seconds with a force of 50g. A scanning electron microscope was used to evaluate the surface of specimens in each treatment subgroup. Conclusions: The obtained results were as follows: 1. 3 types of die stone evaluated in this study did not show significant differences in surface hardness and abrasive resistance(P<.05). 2. In the abrasive resistance test, there were no significant differences between GC $FUJIROCK^{(R)}$ EP and MG Crystal Rock with or without 2 die hardener(P<.05). 3. Super plumstone treated with Stone die & plaster hardener showed increased wear loss(P<.05) 4. Die hardener coatings used in this study decreased the surface hardness of the gypsum material(P<.05).

• 마이크로전자및패키징학회지
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• 제22권1호
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• pp.69-74
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• 2015

첨단 전자기기에 사용되는 전자부품의 크기와 접속피치가 감소하면서 리플로우 공정 후 플럭스 잔사의 세정이 어려워짐에 따라 무세정 솔더 페이스트에 대한 요구가 증가하고 있다. 본 연구에서는 SAC305 솔더분말과 에폭시 레진을 주성분으로 하는 경화성 플럭스를 혼합하여 제조한 에폭시 경화형 솔더 페이스트에 대하여 리플로우 공정성, 플럭스 잔사의 부식성, 솔더볼 및 보드레벨 BGA 패키지 솔더 접합부의 기계적 거동을 기존 로진계 솔더 페이스트와 비교하여 평가하였다. 에폭시 경화형 솔더 페이스트는 솔더 접합부 주변에 경화물 필렛을 형성한 것으로 보아 플럭싱 작용에 의해 솔더 접합부가 형성된 이후에 경화반응이 진행되는 것을 확인할 수 있었으며, 동판에 대한 젖음성 시험을 통해 기존상용 솔더 페이스트 정도의 납퍼짐성을 갖는 것을 알 수 있었다. 리플로우 후 동판에 대한 고온 고습 시험을 통해 에폭시 경화형 솔더 페이스트는 동판 부식을 전혀 발생시키지 않는 것으로 나타났는데, 이는 FT-IR 분석결과 에폭시 경화반응을 통해 단단히 고정된 결과로 생각되었다. 볼전단, 볼당김 및 다이전단 시험 결과, 솔더 접합부 주변에 형성된 경화물 필렛은 솔더 표면과 접착본딩을 형성하며, 다이전단강도를 15~40% 정도 향상시키는 것으로 보아 에폭시 경화형 솔더 페이스트는 플럭스 잔사 세정공정의 생략과 함께 솔더 접합부 보강효과를 통해 패키지 신뢰성 향상에도 기여할 수 있을 것으로 생각되었다.