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閔泰植 成均館大學校 1966 論文集 Vol.11 No.-
1) The main charecteristics of Confucius thought lies in its departure from the legitimate thought to one adaptabe to the changing society, giving considerations to the inter-relationship between the "Self" and "Themself". (Ruled and Ruler) 2) The society Confucius had in mind was as following: A) The establishment of moral society, based on "Humanity (仁)" B) The popularization of education as an element of enhancing democratic society C) The policy based on justice and fair, and egalitarian economic system. 3) The chronological origin of its introduction into the West began with the Latin translation by missionaries dated on 1689. Henceforth, its democratic idea and thought had givena great contributions to its western version of democratic ideals and civilizations as examplified by in French and American revolution. (Toynbee conceded it)
김성태,민태식 대한기계학회 1985 大韓機械學會誌 Vol.25 No.2
압축기의 체적효율, 압축효율에 관련된 부분에 대해서만 검토를 하였으며, 이는 주로 실린더 내 외의 냉해의 압력, 온도 등의 변화과정과 관련이 있다. 압축기의 모델로는 그림 1과 같은 스카 치-요크(Scotch-Yoke)형의 소형 완전 밀폐형 왕복식 압축기를 사용하였다. 그리고 냉매는 R-1 2를 사용하였다.
그래핀 산화물 분말 첨가에 의한 비스무스 텔루라이드 기지 복합재료의 열전에너지변환 특성 고찰
김경태,민태식,김동원,Kim, Kyung Tae,Min, Taesik,Kim, Dong Won 한국분말야금학회 2016 한국분말재료학회지 (KPMI) Vol.23 No.4
Graphene oxide (GO) powder processed by Hummer's method is mixed with p-type $Bi_2Te_3$ based thermoelectric materials by a high-energy ball milling process. The synthesized GO-dispersed p-type $Bi_2Te_3$ composite powder has a composition of $Bi_{0.5}Sb_{1.5}Te_3$ (BSbT), and the powder is consolidated into composites with different contents of GO powder by using the spark plasma sintering (SPS) process. It is found that the addition of GO powder significantly decreases the thermal conductivity of the pure BSbT material through active phonon scattering at the newly formed interfaces. In addition, the electrical properties of the GO/BSbT composites are degraded by the addition of GO powder except in the case of the 0.1 wt% GO/BSbT composite. It is found that defects on the surface of GO powder hinder the electrical transport properties. As a result, the maximum thermoelectric performance (ZT value of 0.91) is achieved from the 0.1% GO/BSbT composite at 398 K. These results indicate that introducing GO powder into thermoelectric materials is a promising method to achieve enhanced thermoelectric performance due to the reduction in thermal conductivity.