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화학적인 용액 코팅방법에 의한 박막형 고온초전도체에 사용되는 SUS310 금속모재의 평탄화 연구
이종범,이현준,김병주,권병국,김선진,이종수,이철영,문승현,이희균,홍계원,Lee, J.B.,Lee, H.J.,Kim, B.J.,Kwon, B.K.,Kim, S.J.,Lee, J.S.,Lee, C.Y.,Moon, S.H.,Lee, H.G.,Hong, G.W. 한국초전도학회 2011 Progress in superconductivity Vol.12 No.2
The properties of $2^{nd}$ generation high temperature superconducting wire, coated conductor strongly depend on the quality of superconducting oxide layer and property of metal substrate is one of the most important factors affecting the quality of coated conductor. Good mechanical and chemical stability at high temperature are required to maintain the initial integrity during the various process steps required to deposit several layers consisting coated conductor. And substrate need to be nonmagnetic to reduce magnetization loss for ac application. Hastelloy and stainless steel are the most suitable alloys for metal substrate. One of the obstacles in using stainless steel as substrate for coated conductor is its difficulties in making smooth surface inevitable for depositing good IBAD layer. Conventional method involves several steps such as electro polishing, deposition of $Al_2O_3$ and $Y_2O_3$ before IBAD process. Chemical solution deposition method can simplify those steps into one step process having uniformity in large area. In this research, we tried to improve the surface roughness of stainless steel(SUS310). The precursor coating solution was synthesized by using yttrium complex. The viscosity of coating solution and heat treatment condition were optimized for smooth surface. A smooth amorphous $Y_2O_3$ thin film suitable for IBAD process was coated on SUS310 tape. The surface roughness was improved from 40nm to 1.8 nm by 4 coatings. The IBAD-MgO layer deposited on prepared substrate showed good in plane alignment(${\Delta}{\phi}$) of $6.2^{\circ}$.
전자빔 증발법에 의한 박막형 고온초전도체의 $CeO_2$ 버퍼층 증착 연구
이종범,박신근,김혜진,문승현,이희균,홍계원,Lee, J.B.,Park, S.K.,Kim, H.J.,Moon, S.H.,Lee, H.G.,Hong, G.W. 한국초전도학회 2010 Progress in superconductivity Vol.11 No.2
The properties of buffer layer for thermal and chemical stability in coated conductor is a very important issue. $CeO_2$ has desirable thermal and chemical stability as well as good lattice match. In this study, $CeO_2$ was deposited by electron beam deposition. The MgO(001) single crystal and LMO buffered IBAD substrate(LMO/IBAD-MgO/$Y_2O_3/Al_2O_3$/Hastelloy) were used as substrates, which have $\Delta\phi$ values of ${\sim}8.9^{\circ}$. The epitaxial $CeO_2$ films was deposited with high deposition rate of $12{\sim}16\;{\AA}/sec$. During deposition, the change of oxygen partial pressure(${\rho}O_2$) does not cause change in c-axis texture. In case of $CeO_2$ on MgO single crystal, the substrate temperature was optimized at $750^{\circ}C$ with superior $\Delta\phi$ and $\Delta\omega$ value. Otherwise, In case of LMO buffered IBAD substrate, It was optimized at $650^{\circ}C$ with increasing its deposition thickness of $CeO_2$, which was finally obtained with best $\Delta\phi$ value of $5.5^{\circ}$, $\Delta\omega$ value of $2^{\circ}$ and Ra value of 2.2 nm.
이종범(J. B. Lee),조상훈(S. H. Cho),민병찬(B. C. Min),홍두영(D. Y. Hong),이원주(W. J. Lee) 한국신뢰성학회 2011 한국신뢰성학회 학술대회논문집 Vol.2011 No.6
The failure of LCC analysis is recognized as a serious risk for companies in fast-paced business environment. LCC analysis has been mentioned and analyzed only in accounting perspectives, but recently engineering perspectives of LCC analysis based on the execution of appropriate procedures become more important than the accounting perspectives. Especially, the practical use of reliability engineering related methodologies is recognized as a key factor for the LCC analysis. For the practical use of reliability methods, LCC analysis for unexposed problems is a key issue, and utilizing FMEA and FTA techniques is needed to solve the unexposed problems. Reliability, maintainability, availability, and safety should be evaluated by the LCC analysis with the reliability methods, so we study methodologies for the LCC analysis. Present Worth can be calculated by multiplication of Annual Equivalent Cost and PWAF. Reliability engineering related methods are needed for the process of dividing Present Worth into PWAF, and the practical use of reliability methods can improve accuracy of LCC analysis.
이종범(J. B. Lee),박찬국(박찬국) 한국자동차공학회 1996 한국자동차공학회 춘 추계 학술대회 논문집 Vol.1996 No.6_2
While the car is driving, to maintain reasonable temperature in engine is very important problem in that not only maintain the steady combustion state, but also prevent engine from increasing of lubricating oil consumption, deteriorating of lubricating oil, shortening of life time, deforming of material strength. and so on. 111is research divides radiator with elements and energy balance equation is used to analyze the each element Data of engine radiant heat experiment and car cooling tunnel experiment is adapted to program for calculation of radiator outlet temperature, and this result is compared with outlet temperature of cooling tunnel experiment result.<br/> As a result, radiator outlet temperature agrees numerical analysis data with experiment data. then this simulation program is able to adapt development of cooling system<br/>