随伴変数法および有限要素法に基づく3次元熱弾性場変形問題に対する形状最適化解析

抄録

In the field of shape design of machine tools and electronic devices with thermal deformations, shape optimization of thermal elastic fields coupled with thermal conduction and elastic fields is becoming more and more important due to the increasing demand for higher performance. In this paper, we formulate the shape optimization problem for maximizing the stiffness or controlling the displacement in a three-dimensional unsteady thermal elastic field using the adjoint variable and the Lagrange multiplier methods, and theoretically derive the shape gradient function as the sensitivity for updating the shape. The traction method was applied based on the derived shape gradient function, and the validity of the method was confirmed by using the numerical analysis program based on the FreeFEM.