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오윤석,Oh, Yoon-Suk 한국세라믹학회 2009 한국세라믹학회지 Vol.46 No.5
DLC is considered as the candidate material for application of moving parts in automotive components relatively in high pressure and temperature operating conditions for its high hardness with self lubrication and chemical inertness. Different deposition method such as arc plating, ion gun plating and PECVD were used for comparing mechanical and tribological properties of each DLCs deposited on stainless steel with 1 um thick respectively. Among these 3 types of DLCs, the arc plated DLC film showed highest value for wear resistance in dry condition. From the results of analysis for physical properties of DLC films, it seems that the adhesion force and crack initiation modes were more important factors than intrinsic mechanical properties such as hardness, elastic modulus and/or roughness to the wear resistance of DLC films. Raman spectroscopy was used for understanding chemical bonding natures of each type of DLC films. Typical D and G peaks were identified based on the deposition method. Hardness of the coating layers were identified by nanoindentation method and the adhesions were checked by scratch method.
터빈블레이드 형상 mock-up의 기하학적 배치조건에 따른 전자빔 물리기상증착법으로 제조된 7 wt% YSZ 열차폐 코팅의 코팅 균일성
오윤석,채정민,류호림,한윤수,안종기,손명숙,김홍규,Oh, Yoon-Suk,Chae, Jung-Min,Ryu, Ho-lim,Han, Yoon-Soo,An, Jong-Kee,Son, Myung-Sook,Kim, Hong-Kyu 한국결정성장학회 2019 한국결정성장학회지 Vol.29 No.6
전자빔 물리기상증착기술(EBPVD)은 주상형 성장거동과 같이 고온에서의 구조 안정성에 기여할 수 있는 특성으로 인해 터빈블레이드 등과 같은 항공기 엔진 고온부품의 열차폐 코팅(TBC) 제조기술로 개발되어 상용화된 기술이다. 전자빔 증착으로 열·기계적 특성이 상용화 가능한 수준에 만족하는 고품질 열차폐 코팅제조를 위해서는 성장거동, 균일두께형성 등과 같은 구조적 요소의 제어가 반드시 수반되어야 한다. 본 연구에서는 실품형상에 근사한 터빈 블레이드 mock-up에 대한 기하학적 코팅인자 조건에 따른 7YSZ(7 wt% 이트리아 안정화 지르코니아) 열차폐 코팅의 성장거동과 구조변화를 고찰하였으며, 전산모사 기법을 활용한 기하학적 코팅인자 조건에 따른 코팅성장거동 모델링을 수행하여 실제 코팅결과와 비교하였다. Electron beam physical vapor deposition (EBPVD) is a conventional method to fabricate thermal barrier coating (TBC) of high temperature airfoil engine parts, such as blade etc. for its high temperature structural stability from the nature of columnar growth behavior. For the high quality of TBC by EBPVD, the structural factors, such as growth behavior, thickness uniformity and so on, should be managed to obtain the coating which satisfied the required specifications of usable level of mechanical and thermal properties. In this study, the growth behavior and structure variations of 7YSZ (7 wt% yttria stabilized zirconia) coatings with different configurational deposition parameters for the specimens which have turbine blade shape mock-up were investigated. Growth behavior of coatings were studied by comparing computational modeling of evaporation behavior with actual deposition process using e-beam source.
서스펜션 플라즈마 용사법을 이용한 7.5 wt% Y<sub>2</sub>O<sub>3</sub>-ZrO<sub>2</sub> 열차폐코팅 제조 및 평가
이원준,오윤석,이성민,김형태,임대순,김성원,Lee, Won-Jun,Oh, Yoon-Suk,Lee, Sung-Min,Kim, Hyung-Tae,Lim, Dae-Soon,Kim, Seongwon 한국세라믹학회 2014 한국세라믹학회지 Vol.51 No.6
Considerable research efforts have been explored attempting to enhance the thermal durability of thermal barrier coatings (TBCs) at the high operating temperatures of gas turbines. In this study, the suspension plasma spray (SPS) process was applied to produce TBCs with a segmented structure by using an yttria-stabilized zirconia (YSZ) suspension. Four different experiment sets were carried out by controlling the ratio between surface roughness of the bond coat and feed stock size ($R_a/D_{50}$) in order to examine the effect of $R_a/D_{50}$ ratio on the microstructure of SPS-prepared coatings. When the $R_a/D_{50}$ had a high value of 11.8, a deposited thick coating turned out to have a cone-type columnar microstructure. In contrast, at the low $R_a/D_{50}$ values of 2.9 and 0.18, a deposited thick coating appeared to have a dense, vertically-cracked microstructure. However, with the very low $R_a/D_{50}$ value of 0.05 the coating was delaminated.
Y<sub>2</sub>O<sub>3</sub>-카본 복합체의 전기전도성에 미치는 소결온도의 영향
최관영,오윤석,김성원,김형순,박종훈,이성민,Choi, Kwan-Young,Oh, Yoon-Suk,Kim, Sung-Won,Kim, Hyung-Sun,Park, Chong-Hun,Lee, Sung-Min 한국세라믹학회 2012 한국세라믹학회지 Vol.49 No.2
The $Y_2O_3$ ceramics have been widely used as plasma resistant materials in the semiconductor industry. In this study, composites made of plasma resistant $Y_2O_3$ and electrically conductive carbon have been produced. The electrical properties of this composite were measured with respect to the size, volume fraction of the conductive carbon phase, and sintering temperature. When micro-sized carbon was used, the composites were insulating up to 5 wt% addition of the carbon. However, when nano-sized carbon of around 60 ~100 nm was used, the composites became conductive over threshold volume fraction of carbon, which increased with increasing sintering temperature. This behavior of electrical conductivity of the composites was discussed in terms of the percolation theory. The percolation threshold of the conductivity seemed to be affected by the grain growth and coalescences of dispersed conductive carbon phases with grain growth of matrix $Y_2O_3$.
반응소결 탄화규소 세라믹스의 열물성과 기계적 특성에 미치는 SiC 크기의 영향
권창섭,오윤석,이성민,한윤수,신현익,김영석,김성원,Kwon, Chang-Sup,Oh, Yoon-Suk,Lee, Sung-Min,Han, Yoonsoo,Shin, Hyun-Ick,Kim, Youngseok,Kim, Seongwon 한국분말야금학회 2014 한국분말재료학회지 (KPMI) Vol.21 No.6
RBSC (reaction-bonded silicon carbide) represents a family of composite ceramics processed by infiltrating with molten silicon into a skeleton of SiC particles and carbon in order to fabricate a fully dense body of silicon carbide. RBSC has been commercially used and widely studied for many years, because of its advantages, such as relatively low temperature for fabrication and easier to form components with near-net-shape and high relative density, compared with other sintering methods. In this study, RBSC was fabricated with different size of SiC in the raw material. Microstructure, thermal and mechanical properties were characterized with the reaction-sintered samples in order to examine the effect of SiC size on the thermal and mechanical properties of RBSC ceramics. Especially, phase volume fraction of each component phase, such as Si, SiC, and C, was evaluated by using an image analyzer. The relationship between microstructures and physical properties was also discussed.
ZrB<sub>2</sub>-SiC 복합세라믹스의 미세구조와 열전도도에 미치는 SiC 크기와 첨가량의 영향
김성원,권창섭,오윤석,이성민,김형태,Kim, Seong-Won,Kwon, Chang-Sup,Oh, Yoon-Suk,Lee, Sung-Min,Kim, Hyung-Tae 한국분말야금학회 2012 한국분말재료학회지 (KPMI) Vol.19 No.5
This paper reports the microstructures and thermal conductivities of $ZrB_2$-SiC composite ceramics with size and amount of SiC. We fabricated sintered bodies of $ZrB_2$-x vol.% SiC (x=10, 20, 30) with submicron and nanosized SiC densified by spark plasma sintering. Microstructure retained the initial powder size of especially SiC, except the agglomeration of nanosized SiC. For sintered bodies, thermal conductivities were examined. The observed thermal conductivity values are 40~60 W/mK, which is slightly lower than the reported values. The relation between microstructural parameter and thermal conductivity was also discussed.