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다중 도메인명을 지원하는 URL 전달 서버의 설계 및 구현
노상호(Sang-Ho Noh),장세현(Se-Hyun Jang),김상연(Sang-Yon Kim),양희재(Heejea Yang) 한국정보과학회 2000 한국정보과학회 학술발표논문집 Vol.27 No.1A
본 연구에서는 인터넷상에 존재하는 웹 사이트를 새로운 도메인 네임으로 연결시켜주는 URL forwarding 서버를 설계 및 구현하였다. URL forwarding 서버는 수많은 인터넷 사용자들의 웹 사이트를 간단하고 다양한 형태의 URL로 매핑 시켜준다. URL forwarding 서버는 HTTP 프로토콜에서 redirection 응답코드를 기반으로 구현되었으며 Linux 시스템에서 실험을 하였다. 본 논문에서는 HTTP와 forwarding 서버를 서로 비교 분석하여 고찰해보고 구현된 forwarding 서버의 동작에 대해서 알아본다.
플라즈마 처리된 폴리이써설폰 막의 CO<sub>2</sub>/N<sub>2</sub> 혼합가스의 투과거동에 대한 연구
박희진,노상호,배성렬,문세기,Park, Hee-Jin,Noh, Sang-Ho,Bae, Seong-Youl,Moon, Sei-Ki 한국화학공학회 2002 Korean Chemical Engineering Research(HWAHAK KONGHA Vol.40 No.6
폴리이써설폰 막(polyethersulfone membrane, PES)을 Ar, $NH_3$ 플라즈마로 표면 처리하고, 처리 전후의 변화를 관찰하였다. Ar 플라즈마로 처리하였을 때 O/C의 비율이 증가하며 친수성기의 도입이 확인되었고 $NH_3$ 플라즈마로 처리하였을 때 아민, 아미노기가 도입되었다. 또한 폴리이써설폰 막의 흡습성이 유지될 경우, 플라즈마 처리에 의해 표면에 형성된 극성 작용기들과 $CO_2$와의 내부반응이 증가하였다. 이로 인해 $N_2$에 비하여 $CO_2$의 용해 선택성이 증가하였고 투과도와 선택도가 동시에 향상되는 효과를 나타내었다. 플라즈마 처리된 폴리이써설폰 막에서 $CO_2$의 투과도와 ${\gamma}$(actual separation factor)에 대한 최적조건은 Ar 플라즈마 처리의 경우 10 W-2 min에서 각각 $13.19{\times}10^{-10}cm^3(STP)cm/cm^2{\cdot}s{\cdot}cmHg$와 20.12이며, $NH_3$ 플라즈마 처리의 경우 50 W-2 min에서 $15.40{\times}10^{-10}cm^3(STP)cm/cm^2{\cdot}s{\cdot}cmHg$와 20.06를 얻었다. The surface of polyethersulfone(PES) membrane treated by Ar, $NH_3$ plasma, and the effects were observed before and after the treatment. The membrane treated by Ar plasma was increased the O/C ratio and measured the hydrophilic group, and the one by $NH_3$ plasma was attached the amine group and the amino group. In addition, with the wettability of polyethersulfone membrane $CO_2$ and the polar functional groups of surface interacted increasingly. Thus by comparable increase of the soluble selectivity $CO_2$ to $N_2$ both the permeability and the selectivity of $CO_2$ was improved. The optimum condition for the $CO_2$ permeation and actual separation factor of the plasma treated membrane was as follows; the measurement of Ar-10 W-2 min plasma treatment was $13.19{\times}10^{-10}cm^3(STP)cm/cm^2{\cdot}s{\cdot}cmHg$ and 20.12, and the measurement of $NH_3$-50 W-2 min plasma treatment was $15.40{\times}10^{-10}cm^3(STP)cm/cm^2{\cdot}s{\cdot}cmHg$ and 20.06.
자동차 Instrument Panel PSM 성형 개선을 위한 TPO/TPU Power 물성 향상 연구
곽성복(sung Bok Kwak),윤여성(Yeo Seong Yoon),노상호(Sang Ho Noh) 한국자동차공학회 2002 한국자동차공학회 춘 추계 학술대회 논문집 Vol.2002 No.5_3
The PSM (powder Slush Molding) which is applied to the PVC in automobile has environmental problems and molding problems. such as disappearance of embo and occurrance of deep drawing. Because of the problems, TPO/TPU is applied to improve the environment in the advanced company. In nation, the materials are on development. In this study, separating of the size of TPO/TPU, and used compatibilizer is enhanced the interface adhesion to improve the molding and durability. It confirms the best molding condition including the data through TPO/TPU Powder analyzer(Thennal analysis, IR, SEM etc). The first step of the study is a selection of the powder size and the second is the mixing with compatibilizer. Finally, the molding is achieved as PSM in the lab. The mixing which is well achieved by raw material and compatibilizer, the molding condition confirms the improved material properties (heat-resistance, light-resistance etc.).<br/> Even though there are still lots of problems to be solved to develop TPO/TPU Powder, it will make the expansion of applications due to the environmental properties of TPO/TPU.
진공사출금형용 STS316L 금속 다공체 제조 및 기계적 특성
김세훈,김상민,노상호,김진평,신재혁,성시영,진광진,김태안,Kim, Se Hoon,Kim, Sang Min,Noh, Sang Ho,Kim, Jin Pyeong,Shin, Jae Hyuck,Sung, Si-Young,Jin, Jin Kwang,Kim, Taean 한국분말야금학회 2015 한국분말재료학회지 (KPMI) Vol.22 No.3
In this study, porous stainless steel (STS316L) sintered body was fabricated by powder metallurgy method and its properties such as porosity, compressive yield strength, hardness, and permeability were evaluated. 67.5Fe-17Cr- 13Ni-2.5Mo (wt%) powder was produced by a water atomization. The atomized powder was classified into size with under $45{\mu}m$ and over $180{\mu}m$, and then they were compacted with various pressures and sintered at $1210^{\circ}C$ for 1 h in a vacuum atmosphere. The porosities of sintered bodies could be obtained in range of 20~53% by controlling the compaction pressure. Compressive yield strength and hardness were achieved up to 268 MPa and 94 Shore D, respectively. Air permeability was obtained up to $79l/min{\cdot}cm^2$. As a result, mechanical properties and air permeability of the optimized porous body having a porosity of 25~40% were very superior to that of Al alloy.