http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
산호 유래 실리콘 함유 다공성 수산화아파타이트의 합성 및 특성 분석
김수룡,이윤주,송희,이종헌,이강식,김해중,김영희,Kim, Soo-Ryong,Lee, Yoon-Joo,Song, Hee,Lee, Jong-Heon,Lee, Kang-Sik,Kim, Hae-Joong,Kim, Young-Hee 한국세라믹학회 2004 한국세라믹학회지 Vol.41 No.8
생체친화성 인공골 개발을 위하여 해면골과 매우 유사한 기공구조를 갖는 천연 산호(CaCO$_3$, aragonite phase)를 수열처리하여 수산화아파타이트 다공체를 제조하였다. 생체 친화성을 증진시키기 위하여 산호를 수열 처리하는 과정에서 실리콘을 치환시키는 실험을 하였다. 수열합성과 solvothermal 방법을 반복적으로 사용하여 실리콘이 치환된 수산화아파타이트를 합성하였으며 이들의 각 온도에 따른 상변화 및 실리콘 농도를 XRD, ICP, EDS 등을 통하여 분석하였다. 분석결과로부터 실리콘이 수산화아파타이트 골격 내에 균일하게 분산되어 있음을 확인하였다. A porous hydroxyapatite has been prepared using natural coral which resembles human cancellous bone in microstructure. To obtain a biomaterial having a good biocompatibility, substitution of silicon into the hydroxyapatite framework has been attempted. Si substituted hydroxyapatite has been prepared by hydrothermal treatment and solvothermal treatment of the natural coral repeatedly. Si concentration and phase of the Si substituted hydroxyapatite derived from coral have been characterized using a XRD, ICP, and EDS etc. EDS investigation confirmed the presence of silicon in the framework of hydroxyapatite structure.
김수룡,권우택,김영희,김종일,이윤주,이현재,오세천,Kim, Soo Ryong,Kwon, Woo Teck,Kim, Younghee,Kim, Jong Il,Lee, Yoon Joo,Lee, Hyun Jae,Oh, Sea Cheon 한국재료학회 2012 한국재료학회지 Vol.22 No.12
The effects of clay, aluminum hydroxide, and carbon powder on the sintering of a Si/SiC mixture from photovoltaic silicon-wafer production were investigated. Sintering temperature was fixed at $1,350^{\circ}C$ and the sintered bodies were characterized by SEM and XRD to analyze the microstructure and to measure the apparent porosity, absorptivity, and apparent density. The XRD peak intensity of SiC in the sintered body was increased by adding 5% carbon to the Si/SiC mixture. From this result, it is confirmed that Si in the Si/SiC mixture had reacted with the added carbon. Addition of aluminum hydroxide decreased the cristobalite phase and increased the stable mullite phase. The measurement of the physical properties indicates that adding carbon to the Si/SiC mixture enables us to obtain a dense sintered body that has high apparent density and low absorptivity. The sintered body produced from the Si/SiC mixture with aluminum hydroxide and carbon powder as sintering additives can be applied to diesel particulate filters or to heat storage materials, etc., since it possesses high thermal conductivity, and anticorrosion and antioxidation properties.
습식분쇄공정에서 액상매체가 실리콘 분쇄 및 산화특성에 미치는 영향
권우택,김수룡,김영희,이윤주,신동근,원지연,오세천,Kwon, Woo Teck,Kim, Soo Ryong,Kim, Young Hee,Lee, Yoon Joo,Shin, Dong Geun,Won, Ji Yeon,Oh, Sea Cheon 한국세라믹학회 2014 한국세라믹학회지 Vol.51 No.2
The influence of a liquid medium duringa wet-milling process in the grinding and oxidation of silicon powder was investigated. Distilled water, dehydrated ethanol and diethylene glycol were used as the liquid media. The applied grinding times were 0.5, 3, and 12 h. Ground silicon powder samples were characterized by means of aparticle size analysis, scanning electron microscopy(SEM), x-ray powder diffraction (XRD), FT-IR spectroscopy and by a chemical composition analysis. From the results of the characterization process, we found that diethylene glycol is the most efficient liquid medium when silicon powder is ground using a wet-milling process. The FT-IR results show that the Si-O band intensity in an unground silicon powder is quite strongbecause oxygen becomes incorporated with silicon to form $SiO_2$ in air. By applying deionized water as a liquid medium for the grinding of silicon, the $SiO_2$ content increased from 4.12% to 31.7%. However, in the cases of dehydrated ethanol and diethylene glycol, it was found that the $SiO_2$ contents after grinding only changed insignificantly, from 4.12% to 5.91% and 5.28%, respectively.
태양광(太陽光) 산업(産業)에서 발생(發生)하는 Si/SiC 혼합물(混合物)의 소결특성(燒結特性) 연구(硏究)
권우택,김수룡,김영희,이윤주,김종일,이현재,오세천,Kwon, Woo Teck,Kim, Soo Ryong,Kim, Younghee,Lee, Yoon Joo,Kim, Jong Il,Lee, Hyun Jae,Oh, Sea Cheon 한국자원리싸이클링학회 2013 資源 리싸이클링 Vol.22 No.3
태양광 산업에서 폐기물로 발생하는 Si/SiC 혼합슬러지를 재활용하는 것은 환경과 경제적인 측면에서 중요하다. 이러한 재활용을 위해서 Si/SiC 혼합물의 소결특성을 분석하는 것이 필요하다. 본 연구에서는 SiC함량에 따른 소결특성을 살펴보기 위해서 공기분급기를 이용하여 Si/SiC 혼합물에서 SiC 함량을 변화시켰다. SiC 함량이 변화된 Si/SiC 혼합물에 카본블랙, 점토 및 수산화알루미늄을 첨가하여 소결하였다. Si/SiC 혼합물의 특성분석 및 첨가제 변화에 따른 Si/SiC 혼합물 소결체의 특성변화를 SEM, XRD, 입도분석 및 겉보기 밀도변화를 측정하여 분석하였다. SEM 및 입도분석결과, SiC 95% 시료의 경우에는 원시료 및 SiC 75% 시료와 비교하여 1 ${\mu}m$ 크기 이하의 미립입자가 크게 감소하여 공기분급을 통한 미세입자 제거가 SiC 함량 제어에 효과가 있음을 확인할 수 있었다. 수산화알루미늄을 첨가함에 따라서 ${\beta}$-Cristobalite 가 감소하고 mullite 생성량이 증가하였으며, 카본블랙의 첨가가 소결특성 향상에 영향을 주는 것을 확인하였다. The recycling of the Si/SiC mixture sludge obtained from solar cell industry is very significant, environmentally and economically. The sintering characteristics of Si/SiC mixture sludge was studied for the purpose of recycling. In this study, to understand sintering behavior, SiC content in the Si/SiC mixture was controlled using an air separator. Various Si/SiC mixtures having different SiC contents were sintered using carbon black, clay and aluminum hydroxide as sintering aids. Physical properties of Si/SiC mixture and sintered bodies have been characterized using SEM, XRD, particle size analyzer and apparent density measurement. SEM and particle size analysis result confirmed that the fine particles less than 1 ${\mu}m$ decreased or removed more effectively through the air separator in the case of 95% SiC sample compared than the case of 75% SiC sample or original SiC sample. Further, with addition of the Aluminum Hydroxide, ${\beta}$-cristobalite phase gradually decreased while mullite phase gradually increased. The addition of the carbon black improved the sintering characteristics.
솔보써말 방법을 이용한 구리분말 제조 및 전자파 차폐제로의 응용
이효원,김수룡,권우택,최덕균,김영희,Lee, Hyo-Won,Kim, Soo-Ryong,Kwon, Woo-Teck,Choi, Duck-Kyun,Kim, Young-Hee 한국재료학회 2006 한국재료학회지 Vol.16 No.5
Copper powders have been widely used in electrically conductive coatings, electrode materials et al. and are very prospective since they are cheaper than noble metal powders such as silver or palladium. In this study, copper powders for metal filler of EMI shielding have been prepared using a solvothermal process from $CuSO_4$, NaOH, Glucose, mixed solvent ($H_2O$: Ethanol) and hydrazine which was used as a reducing agent at various reaction conditions. The prepared copper powders showed finely dispersed spherical shape without agglomerate, uniform morphology, narrow size distribution, high purity and were about 400-700 nm in size. The prepared powders were characterized using XRD, SEM, TGA, XPS, particle size measurement and EMI shielding efficiency.
고분자 복제 템플릿 방법을 이용하여 제조된 다공성 탄화규소의 미세구조 특성
이윤주,김수룡,김영희,신동근,원지연,권우택,Lee, Yoon Joo,Kim, Soo Ryong,Kim, Young Hee,Shin, Dong Geun,Won, Ji Yeon,Kwon, Woo Teck 한국세라믹학회 2014 한국세라믹학회지 Vol.51 No.6
Foam type porous silicon carbide ceramics were fabricated by a polymer replica method using polyurethane foam, carbon black, phenol resin, and silicon powder as raw materials. The influence of the C/Si mole ratio of the ceramic slurry and heat treatment temperature on the porous silicon carbide microstructure was investigated. To characterize the microstructure of porous silicon carbide ceramics, BET, bulk density, X-ray Powder Diffraction (XRD), and Scanning Electron Microscope (SEM) analyses were employed. The results revealed that the surface area of the porous silicon carbide ceramics decreases with increased heat treatment temperature and carbon content at the $2^{nd}$ heat treatment stage. The addition of carbon to the ceramic slurry, which was composed of phenol resin and silicon powder, enhanced the direct carbonization reaction of silicon. This is ascribed to a consequent decrease of the wetting angles of carbon to silicon with increasing heat treatment temperature.
폴리페닐카보실란을 이용한 SiOC가 코팅된 스테인리스스틸 제조 및 이의 내부식성 특징
김종일,이윤주,김수룡,김영희,김정일,우창현,최두진,Kim, Jong-Il,Lee, Yoon-Joo,Kim, Soo-Ryong,Kim, Young-Hee,Kim, Jung-Il,Woo, Chang-Hyn,Choi, Doo-Jin 한국재료학회 2011 한국재료학회지 Vol.21 No.1
To improve the chemical stability of metal, the ceramic coatings on metallic materials have attracted interest from many researchers due to the chemical inertness of ceramic materials. To endure strong acids, SiOC coating on metal substrate was carried out by dip coating method using 20wt% polyphenylcarbosilane solution; SiC powder was added to the solution at 10wt% and 15wt% to improve the mechanical properties and to prevent cracks of the film. Thermal oxidation as a curing step was carried out at $200^{\circ}C$ for crosslinking of the polyphenylcarbosilane, and the coating samples were pyrolysized at $800^{\circ}C$ under argon to convert the polyphenylcarbosilane to SiOC film. The thicknesses of the SiOC coating films were $2.36{\mu}m$ and $3.16{\mu}m$. The quantities of each element were measured as $SiO_{1.07}C_{6.33}$ by EPMA, and it can be confirmed that the SiOC film from polyphenylcarbosilane was formed in a manner that was carbon rich. The hardness of the SiOC film was found to be 3.2Gpa through nanoindentor measurement. No defect including cracks appeared in the SiOC film. The weight loss of the SiOC coated stainless steel was within 2% after soaking in 10% HCl solution at $80^{\circ}C$ for one week. From these results, SiOC coating shows good potential for application to protect against severe chemical corrosion of stainless steel.
SiC가 코팅된 그라파이트 Foam의 제조 및 특성 분석
경재진,김정주,김수룡,권우택,조광연,김영희,Kyung, Jae-Jin,Kim, Jung-Ju,Kim, Soo-Ryong,Kwon, Woo-Teck,Cho, Kwang-Youn,Kim, Young-Hee 한국세라믹학회 2007 한국세라믹학회지 Vol.44 No.11
Graphite is widely used in electronic industry due to its excellent electrical and thermal properties. However, graphite starts to oxidize around $400^{\circ}C$ that seriously degrades its properties. SiC coating can be applied to graphite foam to improve its high temperature oxidation resistance. In this research, SiC coating on graphite foam was made via preceramic polymer using a polyphenylcarbosilane. 20% of polyphenylcarbosilane in hexane solution was coated onto graphite by dip coating method. Thermal oxidation was carried out at $200^{\circ}C$ for crosslink of the preceramic polymer and the sample were pyrolysized at $800^{\circ}C{\sim}1200^{\circ}C$ under nitrogen to convert the preceramic polymer to SiC film. The microstructure of the SiC coating after pyrolysis was investigated using FESEM and oxidation resistance up to $800^{\circ}C$ was evaluated.
Si 치환 Hydroxyapatite의 소결 특성에 관한 연구
이윤주,김영희,김수룡,정상진,류도형,송희,전무진,Lee, Yoon-Joo,Kim, Young-Hee,Kim, Soo-Ryong,Jung, Sang-Jin,Riu, Do-Hyung,Song, Hee,Jun, Moo-Jin 한국세라믹학회 2003 한국세라믹학회지 Vol.40 No.11
생체친화성이 증진된 생체재료를 얻기 위하여 실리콘 원료로 tetraethyl orthosilicate를 사용하여 실리콘이 치환된 hydroxyapatite를 합성하였으며 FT-IR, XRD, 그리고 ICP 분석결과로부터 실리콘이 hydroxyapatite 구조내에 치환되어 있음을 확인하였다. 성분분석 결과 2 wt%까지의 실리콘을 함유하는 hydroxyapatite인 경우는 120$0^{\circ}C$에서 소결 후에도 원래의 hydroxyapatite 구조를 잘 유지하고 있는 것이 XRD와 HRTEM으로 확인되었으나 그 이상의 실리콘을 함유하는 hydroxyapatite인 경우는 110$0^{\circ}C$에서 부터 상분리가 일어나 XRD에서 tricalcium phosphate와 calcium phosphate silicate상이 검출되기 시작하였다. Si -substituted hydroxyapatite has been prepared to obtain biomaterials having an improved biocompatibility. From FT-IR, XRD, and ICP analyses, it was confirmed that the single-phase of hydroxyapatite substituted by Si has formed. Si- substituted hydroxyapatite of up to 2 wt% for Si keeps its original structures intact for the sintering temperatures of up to 1200$^{\circ}C$. However, it is observed that the ion substitutions by the amount higher than the above ratios for the hydroxyapatite leads to destabilize original structures of the hydroxyapatite and to produce tricalcium phosphate and calcium phosphate silicate phases when the samples were sintered at 1l00$^{\circ}C$ or higher.
생체모방기술을 이용한 Boron Nitride /PMMA 복합체 제조
남경목,이윤주,김보연,권우택,김수룡,신동근,김영희,Nam, Kyung Mok,Lee, Yoon Joo,Kim, Bo Yeon,Kwon, Woo Teck,Kim, Soo Ryong,Shin, Dong Geun,Kim, Young Hee 한국세라믹학회 2014 한국세라믹학회지 Vol.51 No.2
Nacre is an organic-inorganic composite material; it is composed of $CaCO_3$ platelet and protein. The microstructure of nacre is a matrix that is similar to bricks and mortar. Technology inspired by nature is called biomimetic technology. In this study, to make high thermal conducting ceramic composite materials using biomimetic technology, a porous green body was prepared with BN platelets. PMMA was infiltrated into the porous green body to make a composite. The microstructure of the composite was observed with FESEM, and the thermal properties were measured. The thermal conductivity of the prepared organic-inorganic composite was 4.19 $W/m{\cdot}K$.