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열반사·단열시트를 적용한 다층복합방수시스템의 단열성능 평가
미야우치 히로유키(Miyauchi Hiroyuki),윤용상(Youn, Yong-Sang),구경모(Koo, Kyung-Mo),미야우치 카오리(Miyauchi Kaori),송재승(Song, Jae-Seung),김규용(Kim, Gyu-Yong) 대한건축학회 2011 大韓建築學會論文集 : 構造系 Vol.27 No.10
A multi-layered waterproofing membrane system with thermal reflection-insulation performance was developed and its insulation performance was evaluated experimentally. The thermal insulating performance of this system was obtained by the following measurement parameters in outdoor exposure test and artificial indoor test; the specimen size-effect, the difference of exposed concrete substrate and the types of waterproofing membrane. As a result, the temperature amplitude in testing chamber is lower than the traditional membrane system and this system had high thermal insulating performance in summer season or high temperature. Then, the thermal conduction performance of this system was measured by the artificial temperature cyclic test in order to evaluate its performance conveniently and its result showed good correlation with outdoor test result. Therefore, it is expected that the thermal insulation performance of various waterproofing membrane system can analyze by this simple test method and propose green roof effectively.
열반사.단열시트를 적용한 다층복합방수시스템의 단열성능 평가
미야우치 히로유키,윤용상,구경모,미야우치 카오리,송재승,김규용,Miyauchi, Hiroyuki,Youn, Yong-Sang,Koo, Kyung-Mo,Miyauchi, Kaori,Song, Jae-Seung,Kim, Gyu-Yong 대한건축학회 2011 대한건축학회논문집 Vol.27 No.10
A multi-layered waterproofing membrane system with thermal reflection-insulation performance was developed and its insulation performance was evaluated experimentally. The thermal insulating performance of this system was obtained by the following measurement parameters in outdoor exposure test and artificial indoor test; the specimen size-effect, the difference of exposed concrete substrate and the types of waterproofing membrane. As a result, the temperature amplitude in testing chamber is lower than the traditional membrane system and this system had high thermal insulating performance in summer season or high temperature. Then, the thermal conduction performance of this system was measured by the artificial temperature cyclic test in order to evaluate its performance conveniently and its result showed good correlation with outdoor test result. Therefore, it is expected that the thermal insulation performance of various waterproofing membrane system can analyze by this simple test method and propose green roof effectively.
바탕모르타르 균열부의 탄산화에 미치는 표면마감재의 CO₂ 투과성능의 영향
미야우치 히로유키(Miyauchi Hiroyuki),구경모(Koo, Kyung-Mo),최경철(Choe, Gyeong-Choel),김규용(Kim, Gyu-Yong),박연진(Park, Yeun-Jin),신경수(Shin, Kyoung-Su) 대한건축학회 2012 大韓建築學會論文集 : 構造系 Vol.28 No.3
The purpose of this study is to investigate the carbonation resistance of building coating materials applied to the mortar or concrete substrate including their cracked zone. The testing parameters for this experiment were the three crack widths in the substrate including non-crack, and two types of the coating materials. As results, the coating materials have good carbonation resistance against CO2 penetration into mortar substrate even in cracked zone of substrate. Furthermore, the carbonation resistance of coating material was calculated by using their CO2 permeability coefficient and discussed from viewpoint of durability design.
방수시트 고정철물 고정공법의 간이 내풍압성 평가방법의 제안
미야우치 히로유키(Miyauchi Hiroyuki),김규용(Kim Gyu-Yong),남정수(Nam Jeong-Soo),구경모(Koo Kyung-Mo),이태규(Lee Tae-Gyu),박연진(Park Yeon-Jin) 대한건축학회 2011 大韓建築學會論文集 : 構造系 Vol.27 No.3
An evaluation method for determining the wind resistance of mechanically anchored waterproofing membrane systems is proposed which uses a straightforward test method to assess wind resistance of the membrane. To obtain basic data for wind resistance design of a waterproofing membrane system, two testswere conducted: a pressure test on a flat roof of a building and a wind resistance test using a ring type specimen. Tests on the membrane anchored to the flat roof showed that, as might be expected, the force on the fastener section increased as the wind pressure became higher. The test method which uses the ring type specimen had good correlation with results derived from the pressure test conducted on the flat roof membrane based on the behaviour of the waterproofing membrane. This test specimen when tested for wind resistance was fractured at 56 % the strength achieved in the static test. Finally, a method for the design of fasteners based on a wind pressure induced fatigue model was proposed in order to apply the results in the construction of a flat roof mechanically anchored waterproofing membrane system.