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신축판(辛丑版) 『동의수세보원(東醫壽世保元)』 태음인(太陰人) 청심연자탕(淸心蓮子湯)에 관한 문헌적(文獻的) 연구(硏究)
김정열,김동준,김달래,Kim, Jeong-Yeol,Kim, Dong-Jun,Kim, Dal-Rae 사상체질의학회 2004 사상체질의학회지 Vol.16 No.1
Puporse This study is intended to distinct of Taeumin chungsimyeonjatang on the Shinchukpan Dongyi Suse Bowon through compare with early books' prescription by studying use of Sanyak and Yeonjayuk. Method This study is reserch to use of Sanyak and Yeonjayuk in early books, Dongyi Suse Bowon-Sasang-chobonkyeon, Gapobon Dongyi Suse Bowon, Shinchukpan Dongyi Suse Bowon and Dongyibogam, Taepyungheymin-hwajegukbang in sequence of date. with this, we study a base of virtue of Taeumin chungsimyeonjatang. Result and conclusion 1. Taeumin chungsimyeonjatang is a prescription of treatment Gonscratia and CVA. 2. Taeumin chungsimyeonjatang is base on Chungsimyeonjaum in Dongyibogam. 3. The chief virtue of Taeumin chungsimyeonjatang is accord with all prescription after 1894's Gapobon Dongyi Suse Bowon.
김정열,정동열,박동호,백종현,Kim, Jeong-Yeol,Chung, Dong-Yeol,Park, Dongho,Peck, Jong-Hyeon 한국교통대학교 융복합기술연구소 2012 융ㆍ복합기술연구소 논문집 Vol.2 No.1
The cold chain system in South-East Asia is requiring to maintain freshness of refrigerated or frozen food. In this study, Thermal storage system using Phase change material (PCM) was developed and evaluated its performance about temperature and cold keeping time. For various application of cold chain system, we developed portable cold box, cold roll container and freezing station. Keeping time on laboratory tests of portable cold box in case of refrigeration and freezing were 6 hours and 4 hours, respectively. Cold container was developed to 2.5 ton scale. Evaluation in Indonesia, it was showed to keep the setting temperature of $-10^{\circ}C$ over 40 hours at $30^{\circ}C$ of ambient air. Freezing station using PCM was kept over 24 hours under $-20^{\circ}C$.
Au/Si(100)기판상에서 Cu-MOCVD 박막의 성장과 상호확산거동
김정열,이영기,박동구,조범래,Kim, Jeong-Yeol,Lee, Yeong-Gi,Park, Dong-Gu,Jo, Beom-Rae 한국재료학회 1997 한국재료학회지 Vol.7 No.8
Si(100)기판상에 여러 가지 두께의 Au박막을 선행 증착(pre-deposition)한 후, 각각의 Au박막상에서의 Cu-MOCVD박막의 초기 핵생성과 성장 기구를 고찰하였고, 또한 각 계면에서의 상호 확산 거동을 여러가지의 분석 장비를 이용하여 조사하였다. 30$\AA$두께의 Au 박막은 수소 가스 분위기중의 열처리에 의하여 평탄한 표면 상태에서 불연속의 응집된 도상(island)형태로 변화(Si 전체 표면중 약 20%)하였다. 반면에 1500$\AA$두께의 Au박막상에서 성장한 Cu-MOCVD박막은 두께 증가에 따른 미세구조의 차이, 즉 Cu박막중으로 Au원자의 확산여부는 Au박막에 유기되는 열응력(thermal stress)을 완화하는 과정에서 일어난 결과이다.