In this work, compliant mechanisms are designed by using multi-objective topology optimization, where maximization of the output displacement and minimization of the strain are considered simultaneously. To quantify the strain, we consider typical measures of strain, which are based on the p-norm, and a new class of strain quantifying functions, which are based on the variance of the strain. The topology optimization problem is formulated using the Solid Isotropic Material with Penalization (SIMP) method, and the sensitivities with respect to design changes are derived using the adjoint method. Since nearly void regions may be highly strained, these regions are excluded in the objective function by a projection method. In the numerical exam...
This paper focuses on design formulation of compliant mechanisms posed as a topology optimization pr...
High-tech equipment critically relies on the precise and reliable fine alignment of components such ...
This paper is focused on the topology design of compliant mechanisms undergoing large displacement (...
The paper presents an alternative formulation for the design of flexible structures and fully compli...
This paper attempts to present a new multi-criteria topological optimization methodology for the sys...
Topology optimization problems for compliant mechanisms using a density interpolation scheme, the ra...
Compliant mechanisms are joint-free monolithic substitutes for multi-membered rigid-body mechanisms....
The topology optimization problem for the synthesis of compliant mechanisms has been formulated in m...
Copyright © 2017 John Wiley & Sons, Ltd. In this paper, a level-set-based method is presented to dea...
Compliant mechanisms are mechanical devices that rely on elastic deformation to achieve force and mo...
A multi-objective scheme for structural topology optimization of distributed compliant mechanisms of...
Compliant mechanisms are mechanical devices that transform or transfer motion, force or energy throu...
To avoid static strength failure caused by large deflection, a design method for topology optimizati...
This paper develops a bi-directional evolutionary structural optimization (BESO) method for topologi...
This paper presents an approach for the topological design of multi-material compliant mechanisms wi...
This paper focuses on design formulation of compliant mechanisms posed as a topology optimization pr...
High-tech equipment critically relies on the precise and reliable fine alignment of components such ...
This paper is focused on the topology design of compliant mechanisms undergoing large displacement (...
The paper presents an alternative formulation for the design of flexible structures and fully compli...
This paper attempts to present a new multi-criteria topological optimization methodology for the sys...
Topology optimization problems for compliant mechanisms using a density interpolation scheme, the ra...
Compliant mechanisms are joint-free monolithic substitutes for multi-membered rigid-body mechanisms....
The topology optimization problem for the synthesis of compliant mechanisms has been formulated in m...
Copyright © 2017 John Wiley & Sons, Ltd. In this paper, a level-set-based method is presented to dea...
Compliant mechanisms are mechanical devices that rely on elastic deformation to achieve force and mo...
A multi-objective scheme for structural topology optimization of distributed compliant mechanisms of...
Compliant mechanisms are mechanical devices that transform or transfer motion, force or energy throu...
To avoid static strength failure caused by large deflection, a design method for topology optimizati...
This paper develops a bi-directional evolutionary structural optimization (BESO) method for topologi...
This paper presents an approach for the topological design of multi-material compliant mechanisms wi...
This paper focuses on design formulation of compliant mechanisms posed as a topology optimization pr...
High-tech equipment critically relies on the precise and reliable fine alignment of components such ...
This paper is focused on the topology design of compliant mechanisms undergoing large displacement (...