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김성수,이동희,황부근,신말순,배종진,윤진환,지용석,안희구 한국특수체육학회 2002 한국특수체육학회지 Vol.10 No.2
The purpose of this study was to analyzed the aerobic capacity of disability· able-bodied wheelchair basketball players. Cardiorespiratory parameters were measured during graded maximal exercise test. Exercise time, HRpeak, oxygen uptake(VO_2, L·min^-1, ml·min^-1·kg^-1), carbon dioxide production(VCO_2, L·min^-1), ventilation(L·min^-1) were examined in disability national elite male wheelchair basketball at letes(DA, N = 10), able-bodied wheelchair basketball athletes(AA, N = 10). All data were expressed in means and standard deviation. Exercise time, HRpeak, oxygen uptake, carbon dioxide production, ventilation were not different between groups. In conclusion, aerobic capacity of disability national elite male wheelchair basketball athletes is the same able-bodied wheelchair basketball athletes. These finding suggest that chronic wheelchair basketball training produce local adaptations in the functional upper body musculature.
윤한기,정헌채,김부안 동의대학교 산업기술개발연구소 2005 産業技術硏究誌 Vol.19 No.-
Monolithic Liquid Phase Sintered SiC (LPS-SiC) was fabricated by hot pressing method under 20 MPa using sintering additives at different temperature such as 1760 ℃, 1780 ℃, 1800 ℃ and 1820 ℃. The starting powder was high purity 13-SiC nano-powder with an average particle size of 30 nm. Compositionsof sintering additives were Al_(2)O_(3) Y_(2)O_(3) = 60.7 and 1.5 (wt%). Monolithic LPS-SiC was evaluated in terms of sintering density, hardness and fracture toughness through indentation fracture method by the Vickers hardness tester. Sintered density, hardness and fracture toughness of fabricated LPS-SiC increased with increasing the sintering temperature. It is higher value than that of fabricated SiC by the chemical vapor deposition method.
Study on Mechanical and Thermal Properties of Tio<sub>2</sub>/Epoxy Resin Nanocomposites
Kim, Bu-Ahn,Moon, Chang-Kwon Korean Society of Ocean Engineers 2013 International journal of ocean system engineering Vol.3 No.2
The purpose of this study was to improve the properties of epoxy resin using titanium oxide nanoparticles. The effects of particle weight fraction, dispersion agent, and curing agents with different molecular weights on the thermal and mechanical properties of titanium-oxide-reinforced epoxy resin were investigated. In addition, the effect of the particle dispersion condition on the mechanical properties of nanocomposites was studied. As a result, it was found that the glass transition temperature of film-shaped nanocomposites decreased with an in-crease in the nanoparticle content. Because nanoparticles interrupted the cross linkage between the epoxy resin and the amine curing agent, the cross-link density of the epoxy became lower and led to a decrease in $T_g$ in the nanocompo-sites. The tensile strength and modulus in film-shaped nanocomposites also increased with the particles content. But in the case of dog-bone-shaped nanocomposites, the values were not similar to the trend for the film-shaped nanocompo-sites. This was probably a result of the different nanoparticles dispersions in the epoxy resins resulting from the respective-thicknesses of the film and dog-bone-shaped samples.
김부안(Bu Ahn Kim),남기우(Ki Woo Nam),조문호(Mun Ho Cho) 한국해양공학회 1999 韓國海洋工學會誌 Vol.13 No.1
67Ni-22Cr-10Al-1Y and ZrO₂-8Y₂O₃ were coated on the substrate surface of STS304 and Al2024 by the plasma spraying method. The adhesion of the films varies depending on the substrates and the laminating method. In the case of STS304, the cracks were observed at thermal shock temperature difference △T of 900℃ in the non functionally gradient material(NFGM) and at 1100℃ in the functionally gradient material(FGM). The film adhesion of the FGM is better than that of the NFGM in STS304.<br/> The cumulative AE count of the FGM of STS304 increased continuously at the bending test. But the NFGM of STS304 showed discontinuity of the AE count. The total AE count for the FGM of STS304 decreased as the number of thermal shock increased, and this tendency was evident as the thermal shock temperature difference increased.
김부안(BU-AHN KIM),문창권(CHANG-KWON MOON) 한국해양공학회 2001 韓國海洋工學會誌 Vol.15 No.2
The fracture toughness of ceramics can be measure by such various methods as DT (double torsion), CN (chevron notch) etc. But, the application of these methods to the engineering ceramics is very difficult because of its very high hardness. So, IF (indentation fracture) method is generally used for the evaluation of fracture toughness of ceramics. The Median crack induced by the sharp Vickers indenter W1S compared with the detected AE (acoustic emission) signal. On the silicon nitride ceramics, the AE test results agree fairly well with the median crack occurance and growth process. But, on the alumina, very many complicated crack signals were detected besides median crack. It can be considered that the IF methods must be used in limited engineering ceramics materials.
저가형 용사피막형성법 이용 태양열 집열판 표면 처리에 관한 연구
김부안(Kim Bu-Ahn),최광환(Choi Kwang-Hwan),노상훈(Roh Sang-Hoon) 한국태양에너지학회 2006 한국태양에너지학회 논문집 Vol.26 No.3
A solar collector surface coated with a low emission material is still imported from other developed countries expensively. Thus it is very significant to develop a new coating method with a cheap alternative coating material instead of the imported high-cost collector surface. A thermal spray method was adopted to coat a cheap Titania on a copper plate. Generally, a new coating on the copper plate was conducted successfully by selecting a proper ratio of carbon and acetylene. By measuring an absorption rate of solar and heat emission rate, all the plate types gained a high absorption rate of 98% approximately, more or less, but all of the types still have a high emission. Finally it was clear that more research is needed to advance the coated-plate to subdue the high emission from the hot plate surface and the higher the Titania’s proportion is, the lower the emission is on the surface.