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유동 및 응고 시뮬레이션을 활용한 회전자 패밀리 금형의 오버플로우 설계 방안
정재민 ( J M Jung ),김창완 ( C W Kim ),( Tam Nguyen Van ),이경민 ( K M Lee ),국중민 ( J M Kuk ),진현기 ( H G Jin ),홍성길 ( S K Hong ) 한국주조공학회 2013 한국주조공학회지 Vol.33 No.5
The family mold casting have advantages which are able to make products with different shapes and dimensions simultaneously in a single mold. In this study, the design of the 4 cavity rotor family mold was used by “Anycasting” software, the defects occurred during die casting were predicted and suggested the best optimization conditions for sound products. The result of the experiment were that the optimum overflow design was needed for gas emission and control of residual oxides. It was clear that the defects positions formed by diecasting were agreed with nearly them predicted by simulation.
신경 제어 기법을 이용한 ER 밸브-실린더 시스템의 위치 제어
정재민(J. M. Jung),최승복(S. B. Choi),정재천(C. C. Cheong) 한국자동차공학회 1996 한국 자동차공학회논문집 Vol.4 No.6
This paper presents an active position control of a single-rod cylinder system featuring an<br/> electrorheological(ER) fluid-based valve. The ER fluid consisting of silicone oil and chemically treated particles is firstly composed and its Bingham property is tested as a function of imposed electric field. A multi-channel plate type of ER valve is then designed and manufactured on the basis of the field-dependent Bingham model. Performance test of the ER valve is undertaken by evaluating pressure drop with respect to the number of electrode as well as the intensity of the electric field. Subsequently, the ER valve-cylinder system is constructed and its governing equation of motion is derived. A neural control scheme for position control of the cylinder is formulated by incorporating proportional-plus-derivative(PD) controller and implemented. Experimental results of both regulating and tracking control responses are presented in order to demonstrate the efficacy of the proposed ER valve-cylinder control system.<br/>
정재민(J.M. Jung),최우연(W.Y. Choi),최승복(S.B. Choi),정재천(C.C. Cheong) 한국자동차공학회 1995 한국자동차공학회 춘 추계 학술대회 논문집 Vol.1995 No.6_1
This paper presents an active position control of a single-rod system featuring an electro rheological(ER) fluid based valve. The ER fluid to be employed to the proposed system is composed and its Bingham property is evaluated as a function of electric fields. Subsequently, a plate type of ER valve is designed on the basis of the field-dependent Bingham model and manufactured. Performance test of the ER valve is undertaken by evaluating pressure drop with respect to the number of electrodes as well as the intensity of electric fields. The ER valve cylinder system is then constructed and its governing equation of motion is derived. A neural control scheme for position control of the cylinder is established by incorporating with proportional-plus-derivative(PD) controller and consequently implemented. Experimental results of both regulating and tracking control responses are presented in order to demonstrate the effectiveness of the proposed methodology.<br/>