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Cu/Ag 복합판재의 전기/기계적 성질 및 프레스 성형성에 관한 연구
신제식,Shin, Je-Sik 한국금형공학회 2012 한국금형공학회지 Vol.6 No.1
In this study, a novel Cu composite sheet with embedded high electric conduction path was developed as another alternative for the interconnect materials possessing high electrical conductivity as well as high strength. The Cu composite sheet was fabricated by forming Ag conduction paths not within the interior but on the surface of a high strength Cu substrate by damascene electroplating process. As a result, the electrical conductivity increased by 40% thanks to mesh type Ag conduction paths, while the ultimate tensile strength decreased by 20%. The interfacial fracture resistance of Cu composite sheet prepared by damascene electroplating increased by above 50 times compared to Cu composite sheet by conventional electroplating. For feasibility test for practical application, a leadframe for LED module was manufactured by a progressive blanking and piercing processes, and the blanked surface profile was evaluated as a function of the volume fraction of Ag conduction paths. As Ag conduction path became finer, pressing formability improved.
태양전지(太陽電池) 원재료(原材料)로 사용(使用)하기 위한 폴리실리콘 미세분말(微細粉末)의 무점결제(無粘結劑) 성형(成形)
신제식,김대석,김기영,손인진,문병문,Shin, Je-Sik,Kim, Dae-Suk,Kim, Ki-Young,Shon, In-Jin,Moon, Byung-Moon 한국자원리싸이클링학회 2009 資源 리싸이클링 Vol.18 No.1
본 고에서는 현행 고순도 폴리실리콘 제조공정에서 부산물로 발생하고 있는 실리콘 미세분말을 경제적인 가격에 태양전지급 원료로 재이용하고자 실리콘 미세분말의 무점결제 성형공정에 대한 연구를 수행하였다. 폴리실리콘 미세분말의 평균 크기는 $7.8{\mu}m$였으며, 주요 불순물은 표면 산화물과 수분이었다. 표면 산화물을 제거하기 위한 HF수용액-에탄올 혼합용액을 이용한 전처리공정을 행함으로써 폴리실리콘 분말의 성형성 그리고 성형체의 밀도 및 강도를 향상시킬 수 있었다. 진공 중에서 성형하는 경우 성형체 회수율이 20%증가하였다. 폴리실리콘 미세 분말은 공정 부산물 상태에서는 태양전지용 원료로 사용되기에 적합한 순도가 아니었지만, 건식 열처리를 행함으로써 태양전지급 이상의 순도를 확보할 수 있었다. In this study, binderless consolidation processes of ultra foe Si powder, by-products of making high purity poly-Si in the current method, were systematically investigated for use as economical solar-grade feedstock. The average diameter of the silicon powder was $7.8{\mu}m$. The main contaminants of the fine silicon powder were $SiO_2$ type oxide and humidity. The chemical pretreatment using the HF solution was observed to be effective for the improvement of the compactability of the silicon powder and the density ratio and the strength of the silicon powder compacts. The yield of the binder-free consolidation process increased by 20% under a vacuum condition. In as-received state, the silicon powder were not pure enough to be used as solar grade feed-stock material. After the dry chemical treatments, a sufficiently high purity above solar-grade was able to be achieved.
Ti 첨가에 의한 심재의 결정립미세화 처리가 4343/3003/4343 알루미늄 클래드 판재의 브레이징 특성에 미치는 영향
신제식 ( Je Sik Shin ),문병문 ( Byung Moon Moon ) 한국주조공학회 2010 한국주조공학회지 Vol.30 No.5
In this study, in order to obtain a useful guide line for design and production of automotive heat exchanger components made of 4343/3003/4343 aluminum clad sheets, it was aimed to improve the understanding about the grain refinement effect on brazing characteristic of the clad sheets. Al-10Ti master alloy was used for grain refinement of 3003 core alloy, and the Ti inoculation level was systematically changed up to 0.1 wt%. The three-layer aluminum clad sheets were fabricated by hot roll bonding process. The effect of grain refinement on brazing characteristic of the clad sheets was investigated by evaluating wettability, bonding strength and sagging resistance.
CCCC법에 의한 태양전지용 다결정 실리콘 잉고트의 제조
신제식(Shin, J. S.),이동섭(Lee, D. S.),이상목(Lee, S. M.),문병문(Moon, B. M.) 한국신재생에너지학회 2005 한국신재생에너지학회 학술대회논문집 Vol.2005 No.06
For the fabrication of poly-crystalline silicon ingot, CCCC (Cold Crucible Continuous Casting) method under a high frequency alternating magnetic field, was utilized in order to prevent crucible consumption and ingot contamination and to increase production rate. In order to effectively and continuously melt and cast silicon, which has a high radiation heat loss due to the high melting temperature and a low induction heating efficiency due to a low electric conductivity, Joule and pinch effects were optimized. Throughout the present investigation, poly-crystalline Si ingot was successfully produced at the casting speed of above 1.5 mm/min under a non-contact condition.
신제식 ( Je Sik Shin ),김기태 ( Ki Tae Kim ),고세현 ( Se Hyun Ko ),안동진 ( Dong Jin An ),김명호 ( Myung Ho Kim ) 한국주조공학회 2013 한국주조공학회지 Vol.33 No.1
In order to develop an aluminum alloy, that can combine high thermal conductivity and good castability and anodizability, aluminum alloys with low Si content, such as Al-(0.5~1.5)Mg-1Fe-0.5Si and Al-(1.0~1.5)Si-1Fe-1Zn, were designed. The developed aluminum alloys exhibited 170~190% thermal conductivity (160~180 W/mK), 60~85% fluidity, and equal or higher ultimate tensile strength compared with those of the ADC12 alloy. In each developed alloy system, the thermal conductivity decreased and the strength increased with the increment of Mg and Si, which are the significant alloying elements. The fluidity was in reverse proportion to the Mg content and in proportion to the Si content. The Al-(0.5~1.5)Mg-1Fe-0.5Si alloys exhibited better fluidity in thick-wall castings, while the Al-(1.0~1.5)Si-1Fe-1Zn alloys were better in thin-wall castability due to their lower surface energies. The fluidity behavior was complexly affected by the heat release for the solidification, viscosity, solidification range, and the type, quantity, and formation juncture of the main secondary phase.
태양전지급 폴리실리콘 성형체 제작을 위한 CIP법의 활용
이호문(Lee, Ho-Moon),신제식(Shin, Je-Sik),문병문(Moon, Byung-Moon),권기환(Kwon, Ki-Hwan),김기영(Kim, Ki-Young) 한국신재생에너지학회 2009 한국신재생에너지학회 학술대회논문집 Vol.2009 No.06
In this study, it was aimed to develop the re-use technology of ultra-fine silicon powders, by-products during the current production process of high purity poly-Si feedstock. For this goal, the compacts of the silicon powders were tried to fabricate by CIP (Cold Isostatic Pressing) method using silicon rubber mold without chemical binder materials. The density ratio of the silicon powder compacts reached 74%. In order to simulate the actual handling and charging conditions of feedstock material in casting process, a shaking test was carried out and mass loss measured. Finally, the silicon powder compacts were melted using a cold crucible induction melting method and the purity assessment was conducted by Hall effect measurement.