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비정질 강섬유보강 시멘트복합체의 정역학특성 및 내충격성능 평가를 통한 구조물 적용 가능성 검토
강일수 ( Kang Il-soo ),김규용 ( Kim Gyu-yong ),이보경 ( Lee Bo-kyeong ),이상규 ( Lee Sang-kyu ),손민재 ( Son Min-jae ),남정수 ( Nam Jeong-soo ) 한국건축시공학회 2017 한국건축시공학회 학술발표대회 논문집 Vol.17 No.2
This study examined the effect that the amorphous metallic fibers had on the static mechanical properties and the impact resistance of cement composites to those of hooked steel fibers. The hooked steel fiber exhibited pull-out from the matrix after the peak flexural stress was attained, while the amorphous metallic fiber was not pulled out from the matrix, but was instead cut off. In terms of impact resistance, the amorphous metallic fiber reinforced cement composite was found to be more effective at resisting cracking than the hooked steel fiber reinforced cement composite. Therefore, amorphous metallic fiber should be used in fiber reinforced cement composite materials, and for structural materials, and for protection panels.
손일수,신성식,Son, Il-Soo,Shin, Sung-Sik 한국전기전자재료학회 2013 전기전자재료학회논문지 Vol.26 No.12
This is the study on the development of fusion heat dissipation of carbon magnesium materials. The purpose of this study is for effective utilization of heat emission which is the core of LED lighting. The result of study enabled the derivation of side satisfying result of making the surface temperature of lighting to be below $70^{\circ}C$ (actual measurement: $58^{\circ}C$) using magnesium. The lighting products that use magnesium was made possible based on the result of this study. Also from the performance aspect such as light distribution, the measurement of light efficiency demonstrated the level of 90 lm/W. Therefore the commercialization of lighting was made possible and the efficiency could be further enhanced by supplementation of LED performance.
경사지(傾斜地) 중립질토양연접군(中粒質土壤連接群)에 대한 토양수분상(土壤水分相) 결정(決定)을 위한 부위(部位) 선정(選定)
정연태,김정곤,손일수,윤을수,Jung, Yeun-Tae,Kim, Jung-Kon,Son, Il-Soo,Yoon, El-Soo 한국토양비료학회 1989 한국토양비료학회지 Vol.22 No.1
This study was carried out by using laboratory data to calculate Soil Moisture Control Section (SMCS) for medium textured topo-sequential soils derived from porphyry in Milyang area. The soils studied were characterized by loam to silty clay loam, and the moisture content at -1/3 bar in the solum ranged around 21.06% to 32.42%. The moisture contents per centimeter of soil layer within a solum calculated at field capacity (FC) ranged from 0.11cm to 0.19cm. The upper boundaries of SMCS of the soils calculated on the basis of FC as the water content at -1/3 bar, ranged from 16.2cm to 21.2cm and the lower boundaries from 44.4cm to 63.8cm, and the depth of SMCS were from 27.7cm to 42.6cm in the soil profiles. The Bongsan soil on the summit had shallower in the boundaries and narrower in the depth of SMCS than the soils on side-slopes or on valley. 토양생성학적(土壤生成學的) 분류단위(分類單位)와 생물환경(生物環境)과의 상호관련성(相互關聯性)을 높이고자 미농무성(美農務省)의 신토양분류법(新土壤分類法)에서는 토양수분상(土壤水分相)과 지온상(地溫相)을 채택(採擇)하고 있으므로 본(本) 연구(硏究)는 토양수분상(土壤水分相) 결정(決定)에 필요(必要)한 토양수분상결정부위(土壤水分相決定部位)(Soil Moisture Control Section ; SMCS)를 실험실(實驗室) 분석성적(分析成績)을 활용(活用)하여 우리나라의 야산경사지(野山傾斜地)에 분석(分析)된 중립질연접토양군(中粒質連接土壤群)을 대상으로 산정(算定)하였다. 1. 반암유내연접군(斑岩由來連接群) 토양(土壤)들은 양토(壤土) 내지 미사질식양토(微砂質埴壤土)로서 상호유사(相互類似)하였으나 곡간(谷間)에 분포(分布)된 반숙토(半熟土)인 우곡통(牛谷統)의 점토함량(粘土含量)은 다른 과숙토(過熟土)들에 비(比)해 낮은 편(便)이었고 진토층(眞土層)(Solum)의 $-{\frac{1}{3}}$ bar 함수비(含水比)는 21.06~32.42% 이었다. 2. 진토층(眞土層) cm당(當) 포장용수량(圃場容水量) 환산치(換算値)는 0.11~0.19cm로서 단면발달도(斷面發達度)가 강(强)할수록, 또 용탈층(容脫層)보다는 집적층(集積層)에서 높았다. 3. 토양별(土壤別) 토양수분상결정부위(土壤水分相決定部位)의 상부경계(上部境界)는 16.2~21.2cm, 하부경계(下部境界)는 44.4~63.8cm의 범위(範圍)로서 SMCS의 두께는 27.7~42.6cm이었는데 산정부토양(山頂部土壤)에서 얕고 좁은 반면(反面)에 산복(山腹), 산록(山麓)으로 내려 올수록 깊고 두꺼워져서 곡간토양(谷間土壤)의 경계(境界)가 가장 깊었고 결정부위(決定部位)도 가장 두꺼웠다.