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라틴아메리카 제2기 여성운동의 특징: 멕시코와 아르헨티나의 확대여성운동을 중심으로
강경희 ( Kyeong Hee Kang ) 한국세계지역학회 2008 世界地域硏究論叢 Vol.26 No.3
본 논문의 목적은 확대여성운동이 제2기 라틴아메리카 여성운동의 두드러진 특징이라는 점을 멕시코와 아르헨티나의 비교사례를 통해 설명하는 것이다. 멕시코는 원주민전통이 강한 복합적이고 이질적인 사회인 반면, 아르헨티나는 인구 대다수가 유럽이민자로서 서구적 전통이 강한 국가이다. 따라서 두 국가 사례의 비교는 상이한 전통의 국가가 1990년대 이후 공히 확대여성운동으로 귀결되는 요인과 특징을 이해하는 데 도움을 줄 것이다. 이러한 연구를 통해 본 논문은 라틴아메리카 페미니스트들이 `차이를 인정한 열린 논의`를 통해 페미니즘의 이론적 심화와 전략적 확장을 모색해왔다는 점을 강조하고자 한다. The objective of this article is to explain the second wave of Latin American feminism through the characteristic of Wide women`s movement in Mexico and Argentina. Mexico is a principal country where has strong influence of the indigenous traditions and its society is very complex and heterogeneous. On the other hand, Argentina is strongly influenced of the western traditions and most of its population are European descendants. Therefore, the comparison of both countries will offer us to understand how the countries of different traditions converge to the Wide women`s movement after the decade of the ninety. In conclusion, this article emphasizes that the Latin American feminists have been looking for theoretical deepening and strategic extension of the feminism by means of the "open discussion with the recognition of the difference" among them.
손가락 표면의 마찰특성과 ridge skin 효과에 대한 실험적 고찰
강경희(Kyeong-Hee Kang),김광일(Kwang-Il Kim),김영태(Young-Tae Kim),김대은(Dae-Eun Kim) 한국트라이볼로지학회 2009 한국트라이볼로지학회 학술대회 Vol.2009 No.11
Application of haptic technology has been increasing steadily over the past several years. The fundamental physics of haptic technology lies in the interaction between the finger and the object. In this sense, the frictional behavior at the contact interface needs to be clearly understood in order to optimize the performance of haptic-based systems. In this work the frictional behavior of a finger tip with respect to various sliding conditions and materials such as paper, wood, leather, glass, metal, and plastic was assessed. A custom-built experimental apparatus was used to measure the friction and normal forces as the finger was pressed and slid against a specimen surface. Friction experiments were performed under both dry and wet conditions. Experimental results showed that friction coefficient ranged between 0.39 to 2.47 depending on the sliding condition and material. Also, the ridge structure of the finger tip was identified to have a significant influence on the frictional behavior.