Flexure hinges made of superelastic materials is a promising candidate to enhance the knowall.blog movability of compliant mechanisms.In this paper, we focus on the multi-objective optimization of a type of ellipse-parabola shaped superelastic flexure hinge.The objective is to determine a set of optimal geometric parameters that maximizes the motion range and the relative compliance of the flexure hinge and minimizes the relative rotation error during the deformation as well.
Firstly, the paper presents a new type of ellipse-parabola shaped flexure hinge which is constructed by an ellipse arc and a parabola curve.Then, the static responses of superelastic flexure hinges are solved via non-prismatic beam elements derived by the co-rotational approach.Finite element analysis (FEA) and experiment tests are performed to verify the modeling method.
Finally, a multi-objective optimization is performed and the Pareto frontier bostik mvp is found via the NSGA-II algorithm.