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2.9리터 IDI(indirect injection) 엔진용 피스톤의 열전달 해석결과인 열전도로 인한 온도분포를 입력값으로 활용한 열응력 연성 해석 KCI 등재

Coupled Simulation of Thermal Stress by using Input Values Through Temperature Distribution by Thermal Conduction After Heat Transfer Analysis for 2.9 Liter Indirect Injection Engine Piston

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한국기계기술학회지 (Journal of the Korean Society of Mechanical Technology)
한국기계기술학회 (Korean Society of Mechanical Technology)
초록

In this analysis, the analytical model was verified through the normal mode analysis of the piston for the 2.9 liter IDI (indirect injection) engine. Heat transfer analysis was carried out by selecting two cases of applied temperature using the validated model. The first case was a condition of 350℃ on the piston upper surface and 100℃ on the piston body and inner wall. In the second case, the conditions were set to give a temperature of 400℃ on the upper surface of the piston and 100℃ on the piston body and the inner wall. In addition, the temperature distribution due to heat transfer was obtained for the pistons with boundary conditions of two cases, and then the thermal stress distribution due to thermal expansion was obtained using the input. Using this analysis result, the thermal stress caused by thermal expansion due to the thermal conduction of the piston is examined and used as the basic data for design.

목차
ABSTRACT
1. 서 론
2. 해석 방법
    2.1 피스톤 모델링
    2.2 열전달(Heat transfer) 해석
    2.2 열응력(Thermal stress) 해석
3. 해석결과 및 고찰
    3.1. 열전달 해석 결과
    3.2. 열응력 해석 결과
4. 결 론
References
저자
  • 김기주(Tongmyung University) | Kee-Joo Kim
  • 원시태(Seoul National University of Science and Technology) | Si-Tae Won Corresponding Author