내연기관 밸브의 동적 접촉 및 응력 해석

Numerical analysis of dynamic contact and stress developing in thc high-speed driven valve of an internal combustion engine is presented. The valve is modeled by finite clement techniques, and the dynamic contact between the valve and the valve scat is analyzed by the solution strategies of differential algebraic equations. Also an iterative scheme similar to the augmented Lagrange multiplier method is employed to enforce the contact constraints. It is shown that the contact and separation between the valve and the valve seat can be computed by the finite element techniques without assuming the artificial springs. and the efficiency and accuracy of the solution are demonstrated by the numerical examples.