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Carbon fibers, which have excellent mechanical and thermal properties, are used in many fields; however, they are very vulnerable to oxidation and have limited service life. Various studies have attempted to address this. In this study, a SiC–C composite material was prepared using a silica sol to coat the carbon surface and improve the oxidation resistance of a carbon-fiber insulator as a material for solar-cell ingot-growing crucibles. The SiC coating was formed on the carbon surface under various conditions by controlling the composition of the silica sol, and its characteristics were examined. Via SiC-conversion coating through a carbothermal reaction, a film of thickness 30–80 nm film was uniformly formed over the entire sample. In addition, the oxidation characteristics were enhanced by a factor of three to five, when compared with conventional carbon materials.
Su-Bin Ahn; Minh Dat Nguyen; Jung-Won Bang; YoungHee Kim; Yoonjoo Lee; Dong-Geun Shin; Woo-Teck Kwon. SiC-conversion coating from silica sol for improved oxidation resistance of carbon-fiber insulator in solar-cell ingot-growing crucibles. Thin Solid Films 2019, 694, 137748 .
AMA StyleSu-Bin Ahn, Minh Dat Nguyen, Jung-Won Bang, YoungHee Kim, Yoonjoo Lee, Dong-Geun Shin, Woo-Teck Kwon. SiC-conversion coating from silica sol for improved oxidation resistance of carbon-fiber insulator in solar-cell ingot-growing crucibles. Thin Solid Films. 2019; 694 ():137748.
Chicago/Turabian StyleSu-Bin Ahn; Minh Dat Nguyen; Jung-Won Bang; YoungHee Kim; Yoonjoo Lee; Dong-Geun Shin; Woo-Teck Kwon. 2019. "SiC-conversion coating from silica sol for improved oxidation resistance of carbon-fiber insulator in solar-cell ingot-growing crucibles." Thin Solid Films 694, no. : 137748.
The increasing CO2 concentration in the Earth’s atmosphere, mainly caused by fossil fuel combustion, has led to concerns about global warming. Carbonation is a technique that can be used as a carbon capture and storage (CCS) technology for CO2 sequestration. In this study, the utilization of the fly ash from a solid refused fuel (SRF) power plant as a solid sorbent material for CO2 capture via semi-dry carbonation reaction was evaluated as a simple process to reduce CO2. The fly ash was exposed to accelerated carbonation conditions at a relative humidity of 25, 50, 75, and 100%, to investigate the effects of humidity on the carbonation kinetics of the fly ash. The reaction conditions such as moisture, concentration of CO2, and reaction time can affect CO2 capture performance of fly ash. Due to a short diffusion length of H2CO3 in water, the semi-dry process exhibits faster carbonation reaction than the wet process. Especially, the semi-dry process does not require a wastewater treatment plant because it uses a small amount of water. This study may have important implications, illustrating the possibility of replacing the wet process with the semi-dry process.
Jung Hyun Kim; Woo Teck Kwon. Semi-Dry Carbonation Process Using Fly Ash from Solid Refused Fuel Power Plant. Sustainability 2019, 11, 908 .
AMA StyleJung Hyun Kim, Woo Teck Kwon. Semi-Dry Carbonation Process Using Fly Ash from Solid Refused Fuel Power Plant. Sustainability. 2019; 11 (3):908.
Chicago/Turabian StyleJung Hyun Kim; Woo Teck Kwon. 2019. "Semi-Dry Carbonation Process Using Fly Ash from Solid Refused Fuel Power Plant." Sustainability 11, no. 3: 908.
Boilers are systems used mainly to generate steam in industries and waste-to-energy facilities. During operation, heat transfer loss occurs because a fouling layer with low thermal conductivity is deposited on the external surfaces of the boiler tube system, which contributes to the overall poor energy efficiency of waste-to-energy power plants. To overcome the fouling problem, a ceramic coating was developed and applied to carbon steel with a simple and inexpensive coating method. Anti-fouling testing, thermal conductivity measurement, and microstructure observation were performed to evaluate the performance of the coating. All evaluated properties of the coating were found to be excellent. The developed ceramic coating can be applied to boiler tubes in a real facility to protect them from the fouling problem and improve their energy efficiency.
Minh Dat Nguyen; Jung Won Bang; Young Hee Kim; An Su Bin; Kyu Hong Hwang; Vuong-Hung Pham; Woo-Teck Kwon. Anti-Fouling Ceramic Coating for Improving the Energy Efficiency of Steel Boiler Systems. Coatings 2018, 8, 353 .
AMA StyleMinh Dat Nguyen, Jung Won Bang, Young Hee Kim, An Su Bin, Kyu Hong Hwang, Vuong-Hung Pham, Woo-Teck Kwon. Anti-Fouling Ceramic Coating for Improving the Energy Efficiency of Steel Boiler Systems. Coatings. 2018; 8 (10):353.
Chicago/Turabian StyleMinh Dat Nguyen; Jung Won Bang; Young Hee Kim; An Su Bin; Kyu Hong Hwang; Vuong-Hung Pham; Woo-Teck Kwon. 2018. "Anti-Fouling Ceramic Coating for Improving the Energy Efficiency of Steel Boiler Systems." Coatings 8, no. 10: 353.
Barrier coatings can be used to prevent corrosion of steel in high-temperature applications with oxidizing and humid environments. This study describes the development of a high-performance environmental barrier coating for steel using a slurry spraying process. In this process, a solution or suspension is deposited onto a substrate using air spraying. Parameters such as the pre-treatment of the steel substrates, filler systems, filler volume, and coating thickness were varied to optimize the coatings. The resulting coatings were investigated using thermogravimetric analysis, scanning electron microscopy with X-ray micro analysis, and X-ray diffraction to clarify the possible protective and bonding mechanisms. Finally, oxidation, thermal shock resistance, and humidity resistance tests were performed to evaluate the performance of the developed coating under harsh environments simulating real applications. It was concluded that the developed coatings were appropriate for protecting steels such as those used in steam boiler tube systems in waste incineration plants.
Minh Dat Nguyen; Jung Won Bang; Young Hee Kim; An Su Bin; Kyu Hong Hwang; Vuong-Hung Pham; Woo-Teck Kwon. Slurry spray coating of carbon steel for use in oxidizing and humid environments. Ceramics International 2018, 44, 8306 -8313.
AMA StyleMinh Dat Nguyen, Jung Won Bang, Young Hee Kim, An Su Bin, Kyu Hong Hwang, Vuong-Hung Pham, Woo-Teck Kwon. Slurry spray coating of carbon steel for use in oxidizing and humid environments. Ceramics International. 2018; 44 (7):8306-8313.
Chicago/Turabian StyleMinh Dat Nguyen; Jung Won Bang; Young Hee Kim; An Su Bin; Kyu Hong Hwang; Vuong-Hung Pham; Woo-Teck Kwon. 2018. "Slurry spray coating of carbon steel for use in oxidizing and humid environments." Ceramics International 44, no. 7: 8306-8313.
Silicon carbide reticulated porous ceramics (SiC RPCs) were fabricated by the replica method using a multi-coating process with polycarbosilane (PCS) and aluminum-doped polycarbosilane (Al-PCS) preceramic solutions. In the modified method, the temperature and holding-time of the curing process were optimized to minimize the hollow structures of SiC RPCs, and heat-treatments were conducted at 1800 °C to obtain a fine SiC crystal growth. The morphologies of SiC RPCs fabricated with various combinations of the preceramic solutions in the multi-coating process were investigated. The size of struts and pores of the SiC RPCs could be modulated by varying the number of times of coating in this modified method. The compressive strength of SiC RPCs increased dramatically with the multi-coating process. The SiC RPCs, which were fabricated by a triple-coating process with Al-PCS solution, had the maximum compressive strength. The results revealed that the aluminum in Al-PCS acted as a sintering additive during the heat-treatment process. X-ray diffraction patterns indicated that the crystalline phases of the prepared SiC RPCs were mainly β-SiC phase and very similar regardless of the preceramic solutions.
Jung Won Bang; Soo-Ryong Kim; YoungHee Kim; Dong-Geun Shin; Yoon-Joo Lee; Won-Kyu Park; Hyun-Jae Lee; Woo-Teck Kwon. Effects of Multi-Coating Process with Preceramic Solutions in Replica Method on Silicson Carbide Reticulated Porous Ceramics. Science of Advanced Materials 2018, 10, 734 -738.
AMA StyleJung Won Bang, Soo-Ryong Kim, YoungHee Kim, Dong-Geun Shin, Yoon-Joo Lee, Won-Kyu Park, Hyun-Jae Lee, Woo-Teck Kwon. Effects of Multi-Coating Process with Preceramic Solutions in Replica Method on Silicson Carbide Reticulated Porous Ceramics. Science of Advanced Materials. 2018; 10 (5):734-738.
Chicago/Turabian StyleJung Won Bang; Soo-Ryong Kim; YoungHee Kim; Dong-Geun Shin; Yoon-Joo Lee; Won-Kyu Park; Hyun-Jae Lee; Woo-Teck Kwon. 2018. "Effects of Multi-Coating Process with Preceramic Solutions in Replica Method on Silicson Carbide Reticulated Porous Ceramics." Science of Advanced Materials 10, no. 5: 734-738.
Yoonjoo Lee; Ji Hwoan Lee; Dong-Geun Shin; Alfian Noviyanto; Heyon-Myong Lee; Toshiyuki Nishimura; Byung-Koog Jang; Woo-Teck Kwon; YoungHee Kim; Sukyoung Kim; Young-Hwan Han. Phase transformation on spark plasma sintered dense polycarbosilane-derived SiC without additive. Scripta Materialia 2018, 143, 188 -190.
AMA StyleYoonjoo Lee, Ji Hwoan Lee, Dong-Geun Shin, Alfian Noviyanto, Heyon-Myong Lee, Toshiyuki Nishimura, Byung-Koog Jang, Woo-Teck Kwon, YoungHee Kim, Sukyoung Kim, Young-Hwan Han. Phase transformation on spark plasma sintered dense polycarbosilane-derived SiC without additive. Scripta Materialia. 2018; 143 ():188-190.
Chicago/Turabian StyleYoonjoo Lee; Ji Hwoan Lee; Dong-Geun Shin; Alfian Noviyanto; Heyon-Myong Lee; Toshiyuki Nishimura; Byung-Koog Jang; Woo-Teck Kwon; YoungHee Kim; Sukyoung Kim; Young-Hwan Han. 2018. "Phase transformation on spark plasma sintered dense polycarbosilane-derived SiC without additive." Scripta Materialia 143, no. : 188-190.
Su-Bin Ahn; Yoonjoo Lee; Jung-Won Bang; Dong-Geun Shin; Woo-Teck Kwon. Preperation of Silicon Carbide Oxidation Protection Film on Carbon Thermal Insulator Using Polycarbosilane and Its Characterization. Korean Journal of Materials Research 2017, 27, 471 -476.
AMA StyleSu-Bin Ahn, Yoonjoo Lee, Jung-Won Bang, Dong-Geun Shin, Woo-Teck Kwon. Preperation of Silicon Carbide Oxidation Protection Film on Carbon Thermal Insulator Using Polycarbosilane and Its Characterization. Korean Journal of Materials Research. 2017; 27 (9):471-476.
Chicago/Turabian StyleSu-Bin Ahn; Yoonjoo Lee; Jung-Won Bang; Dong-Geun Shin; Woo-Teck Kwon. 2017. "Preperation of Silicon Carbide Oxidation Protection Film on Carbon Thermal Insulator Using Polycarbosilane and Its Characterization." Korean Journal of Materials Research 27, no. 9: 471-476.
Minh Dat Nguyen; Jung Won Bang; An Su Bin; Soo-Ryoung Kim; YoungHee Kim; Kyu Hong Hwang; Vuong-Hung Pham; Woo-Teck Kwon. Novel polymer-derived ceramic environmental barrier coating system for carbon steel in oxidizing environments. Journal of the European Ceramic Society 2017, 37, 2001 -2010.
AMA StyleMinh Dat Nguyen, Jung Won Bang, An Su Bin, Soo-Ryoung Kim, YoungHee Kim, Kyu Hong Hwang, Vuong-Hung Pham, Woo-Teck Kwon. Novel polymer-derived ceramic environmental barrier coating system for carbon steel in oxidizing environments. Journal of the European Ceramic Society. 2017; 37 (5):2001-2010.
Chicago/Turabian StyleMinh Dat Nguyen; Jung Won Bang; An Su Bin; Soo-Ryoung Kim; YoungHee Kim; Kyu Hong Hwang; Vuong-Hung Pham; Woo-Teck Kwon. 2017. "Novel polymer-derived ceramic environmental barrier coating system for carbon steel in oxidizing environments." Journal of the European Ceramic Society 37, no. 5: 2001-2010.
Yoonjoo Lee; YoungHee Kim; Seong Gun Bae; Hyeon Myoung Lee; Kwang Youn Cho; Woo Teck Kwon; Soo Ryong Kim; Doh Hyung Riu; Dong Geun Shin. Preceramic Polymer Technology for High Temperature Ceramic Composite and its Application. Composites Research 2017, 30, 102 -107.
AMA StyleYoonjoo Lee, YoungHee Kim, Seong Gun Bae, Hyeon Myoung Lee, Kwang Youn Cho, Woo Teck Kwon, Soo Ryong Kim, Doh Hyung Riu, Dong Geun Shin. Preceramic Polymer Technology for High Temperature Ceramic Composite and its Application. Composites Research. 2017; 30 (2):102-107.
Chicago/Turabian StyleYoonjoo Lee; YoungHee Kim; Seong Gun Bae; Hyeon Myoung Lee; Kwang Youn Cho; Woo Teck Kwon; Soo Ryong Kim; Doh Hyung Riu; Dong Geun Shin. 2017. "Preceramic Polymer Technology for High Temperature Ceramic Composite and its Application." Composites Research 30, no. 2: 102-107.
Jung Won Bang; YoungHee Kim; Soo-Ryong Kim; Dong-Geun Shin; Kye-Hong Cho; Woo Teck Kwon. High Temperature Corrosion Properties of Heating Surface in Waste-to-Energy Boiler Tube. Journal of Korea Society of Waste Management 2017, 34, 27 -33.
AMA StyleJung Won Bang, YoungHee Kim, Soo-Ryong Kim, Dong-Geun Shin, Kye-Hong Cho, Woo Teck Kwon. High Temperature Corrosion Properties of Heating Surface in Waste-to-Energy Boiler Tube. Journal of Korea Society of Waste Management. 2017; 34 (1):27-33.
Chicago/Turabian StyleJung Won Bang; YoungHee Kim; Soo-Ryong Kim; Dong-Geun Shin; Kye-Hong Cho; Woo Teck Kwon. 2017. "High Temperature Corrosion Properties of Heating Surface in Waste-to-Energy Boiler Tube." Journal of Korea Society of Waste Management 34, no. 1: 27-33.
Jung Won Bang; Yoon-Joo Lee; Dong-Geun Shin; YoungHee Kim; Soo-Ryong Kim; Chul-Seoung Baek; Woo-Teck Kwon. Characterization of Microstructure and Thermal property of Ash Deposits on Fire-side Boiler Tube. Journal of the Korean Ceramic Society 2016, 53, 659 -664.
AMA StyleJung Won Bang, Yoon-Joo Lee, Dong-Geun Shin, YoungHee Kim, Soo-Ryong Kim, Chul-Seoung Baek, Woo-Teck Kwon. Characterization of Microstructure and Thermal property of Ash Deposits on Fire-side Boiler Tube. Journal of the Korean Ceramic Society. 2016; 53 (6):659-664.
Chicago/Turabian StyleJung Won Bang; Yoon-Joo Lee; Dong-Geun Shin; YoungHee Kim; Soo-Ryong Kim; Chul-Seoung Baek; Woo-Teck Kwon. 2016. "Characterization of Microstructure and Thermal property of Ash Deposits on Fire-side Boiler Tube." Journal of the Korean Ceramic Society 53, no. 6: 659-664.
Yoon-Joo Lee; Dong-Geun Shin; YoungHee Kim; Woo-Teck Kwon; Soo-Ryong Kim; Doh-Hyung Riu. Formation of ZSM-5 on Silicon Carbide Fibers for Catalytic Support. Journal of Materials Science and Engineering B 2016, 6, 1 .
AMA StyleYoon-Joo Lee, Dong-Geun Shin, YoungHee Kim, Woo-Teck Kwon, Soo-Ryong Kim, Doh-Hyung Riu. Formation of ZSM-5 on Silicon Carbide Fibers for Catalytic Support. Journal of Materials Science and Engineering B. 2016; 6 (5):1.
Chicago/Turabian StyleYoon-Joo Lee; Dong-Geun Shin; YoungHee Kim; Woo-Teck Kwon; Soo-Ryong Kim; Doh-Hyung Riu. 2016. "Formation of ZSM-5 on Silicon Carbide Fibers for Catalytic Support." Journal of Materials Science and Engineering B 6, no. 5: 1.
Yoonjoo Lee; Seck Heo; YoungHee Kim; Soo-Ryong Kim; Woo-Teck Kwon. Strength and Heat Deflection Temperature of Resin Compounds Prepared Using Different Size and Content of Ground Calcium Carbonate. Korean Journal of Materials Research 2016, 26, 359 -362.
AMA StyleYoonjoo Lee, Seck Heo, YoungHee Kim, Soo-Ryong Kim, Woo-Teck Kwon. Strength and Heat Deflection Temperature of Resin Compounds Prepared Using Different Size and Content of Ground Calcium Carbonate. Korean Journal of Materials Research. 2016; 26 (7):359-362.
Chicago/Turabian StyleYoonjoo Lee; Seck Heo; YoungHee Kim; Soo-Ryong Kim; Woo-Teck Kwon. 2016. "Strength and Heat Deflection Temperature of Resin Compounds Prepared Using Different Size and Content of Ground Calcium Carbonate." Korean Journal of Materials Research 26, no. 7: 359-362.
Un Seong Jeong; Yoon Joo Lee; Dong Geun Shin; Hyung Mi Lim; So Youn Mun; Woo Teck Kwon; Soo Ryong Kim; Young Hee Kim; Kwang Bo Shim. Highly Thermal Conductive Alumina Plate/Epoxy Composite for Electronic Packaging. Transactions on Electrical and Electronic Materials 2015, 16, 351 -354.
AMA StyleUn Seong Jeong, Yoon Joo Lee, Dong Geun Shin, Hyung Mi Lim, So Youn Mun, Woo Teck Kwon, Soo Ryong Kim, Young Hee Kim, Kwang Bo Shim. Highly Thermal Conductive Alumina Plate/Epoxy Composite for Electronic Packaging. Transactions on Electrical and Electronic Materials. 2015; 16 (6):351-354.
Chicago/Turabian StyleUn Seong Jeong; Yoon Joo Lee; Dong Geun Shin; Hyung Mi Lim; So Youn Mun; Woo Teck Kwon; Soo Ryong Kim; Young Hee Kim; Kwang Bo Shim. 2015. "Highly Thermal Conductive Alumina Plate/Epoxy Composite for Electronic Packaging." Transactions on Electrical and Electronic Materials 16, no. 6: 351-354.
Bo Yeon Kim; Yoon Joo Lee; Dong-Geun Shin; Soo Ryong Kim; Woo Teck Kwon; YoungHee Kim; Duck Kyun Choi. Effect of Salt on Crystal Growth of Plate-like Alumina Particles by Molten-salt Method. Korean Chemical Engineering Research 2015, 53, 603 -608.
AMA StyleBo Yeon Kim, Yoon Joo Lee, Dong-Geun Shin, Soo Ryong Kim, Woo Teck Kwon, YoungHee Kim, Duck Kyun Choi. Effect of Salt on Crystal Growth of Plate-like Alumina Particles by Molten-salt Method. Korean Chemical Engineering Research. 2015; 53 (5):603-608.
Chicago/Turabian StyleBo Yeon Kim; Yoon Joo Lee; Dong-Geun Shin; Soo Ryong Kim; Woo Teck Kwon; YoungHee Kim; Duck Kyun Choi. 2015. "Effect of Salt on Crystal Growth of Plate-like Alumina Particles by Molten-salt Method." Korean Chemical Engineering Research 53, no. 5: 603-608.
Eunjin Jung; Yoon Joo Lee; Ji Yeon Won; YoungHee Kim; Soo Ryong Kim; Dong-Geun Shin; Hyun Jae Lee; Woo Teck Kwon. Synthesis of ZSM-5 on the Surface of Foam Type Porous SiC Support. Korean Chemical Engineering Research 2015, 53, 425 -430.
AMA StyleEunjin Jung, Yoon Joo Lee, Ji Yeon Won, YoungHee Kim, Soo Ryong Kim, Dong-Geun Shin, Hyun Jae Lee, Woo Teck Kwon. Synthesis of ZSM-5 on the Surface of Foam Type Porous SiC Support. Korean Chemical Engineering Research. 2015; 53 (4):425-430.
Chicago/Turabian StyleEunjin Jung; Yoon Joo Lee; Ji Yeon Won; YoungHee Kim; Soo Ryong Kim; Dong-Geun Shin; Hyun Jae Lee; Woo Teck Kwon. 2015. "Synthesis of ZSM-5 on the Surface of Foam Type Porous SiC Support." Korean Chemical Engineering Research 53, no. 4: 425-430.
AlN single crystal can be grown by physical vapor transport (PVT) method. The purity and particle size of the source material are important factors for single crystal growth to obtain good quality of AlN single crystal. The aim of this study was purification of AlN powder and growth of its particle size through thermocyclic treatment. The initial particle size was about 1.0 μm and the purity was 98.4% containing 1.6% oxygen and metallic impurities such as Fe, Sn, Ca, Na and Mg etc. which were analyzed based on KSL1612. For purification of AlN powder, it was performed using a thermocycle process with various thermocyclic numbers. After the thermocycle treatment, it is able to obtain large particle size AlN powder as much as 30μm and purity was increased to 99.6% based on chemical analysis.
Kang Huk Lee; Seong Min Jeong; Woo Teck Kwon; Soo Ryong Kim; Dong Geun Shin; Hyung Sun Kim; Young Hee Kim. Purification and Size Control of AlN Powder for AlN Single Crystal Growth. Materials Science Forum 2014, 804, 107 -110.
AMA StyleKang Huk Lee, Seong Min Jeong, Woo Teck Kwon, Soo Ryong Kim, Dong Geun Shin, Hyung Sun Kim, Young Hee Kim. Purification and Size Control of AlN Powder for AlN Single Crystal Growth. Materials Science Forum. 2014; 804 ():107-110.
Chicago/Turabian StyleKang Huk Lee; Seong Min Jeong; Woo Teck Kwon; Soo Ryong Kim; Dong Geun Shin; Hyung Sun Kim; Young Hee Kim. 2014. "Purification and Size Control of AlN Powder for AlN Single Crystal Growth." Materials Science Forum 804, no. : 107-110.
This chapter contains sections titled: Introduction Experimental Results and Discussion Conclusions Acknowledgment
Yoon Joo Lee; Jong Ii Kim; Soo Ryong Kim; Woo Teck Kwon; Dong-Geun Shin; Yonghee Kim. Fabrication of SiOC/C Coatings on Stainless Steel using Poly(Phenyl Carbosilane) and their Anti-Corrosion Properties. Processing of High Temperature Superconductors 2014, 71 -78.
AMA StyleYoon Joo Lee, Jong Ii Kim, Soo Ryong Kim, Woo Teck Kwon, Dong-Geun Shin, Yonghee Kim. Fabrication of SiOC/C Coatings on Stainless Steel using Poly(Phenyl Carbosilane) and their Anti-Corrosion Properties. Processing of High Temperature Superconductors. 2014; ():71-78.
Chicago/Turabian StyleYoon Joo Lee; Jong Ii Kim; Soo Ryong Kim; Woo Teck Kwon; Dong-Geun Shin; Yonghee Kim. 2014. "Fabrication of SiOC/C Coatings on Stainless Steel using Poly(Phenyl Carbosilane) and their Anti-Corrosion Properties." Processing of High Temperature Superconductors , no. : 71-78.
Kyung Mok Nam; Yoon Joo Lee; Woo Teck Kwon; Soo Ryong Kim; Dong-Geun Shin; Hyung Mi Lim; Hyungsun Kim; YoungHee Kim. Bio-Inspired Synthesis of a Silicate/PMMA Composite. Journal of the Korean Ceramic Society 2014, 51, 7 -10.
AMA StyleKyung Mok Nam, Yoon Joo Lee, Woo Teck Kwon, Soo Ryong Kim, Dong-Geun Shin, Hyung Mi Lim, Hyungsun Kim, YoungHee Kim. Bio-Inspired Synthesis of a Silicate/PMMA Composite. Journal of the Korean Ceramic Society. 2014; 51 (1):7-10.
Chicago/Turabian StyleKyung Mok Nam; Yoon Joo Lee; Woo Teck Kwon; Soo Ryong Kim; Dong-Geun Shin; Hyung Mi Lim; Hyungsun Kim; YoungHee Kim. 2014. "Bio-Inspired Synthesis of a Silicate/PMMA Composite." Journal of the Korean Ceramic Society 51, no. 1: 7-10.
In an environmental and economic point of view, recycling of silicon wafer sludge is important. The aim of this work is to investigate the recycling method of silicon wafer sludge. Therefore, drying rate of silicon wafer sludge has been studied for separation of liquid and solid from sludge. Silicon and silicon carbide powder obtained from silicon wafer sludge were analyzed by SEM, XFR, XRD and particle size analyzer. The recovered oil was also characterized using GC-MS. From this work, it can be seen that the falling drying rate of silicon wafer sludge is linear equation. Various metal components have been found in recovered solid powder caused by wire sawing processing.
Woo Teck Kwon; Soo Ryong Kim; Young Hee Kim; Jee Ban Poudel; Sea Cheon Oh. Recovery of Silicon and Silicon Carbide Powder from Waste Silicon Wafer Sludge. Materials Science Forum 2013, 761, 65 -68.
AMA StyleWoo Teck Kwon, Soo Ryong Kim, Young Hee Kim, Jee Ban Poudel, Sea Cheon Oh. Recovery of Silicon and Silicon Carbide Powder from Waste Silicon Wafer Sludge. Materials Science Forum. 2013; 761 ():65-68.
Chicago/Turabian StyleWoo Teck Kwon; Soo Ryong Kim; Young Hee Kim; Jee Ban Poudel; Sea Cheon Oh. 2013. "Recovery of Silicon and Silicon Carbide Powder from Waste Silicon Wafer Sludge." Materials Science Forum 761, no. : 65-68.