© 2015 Elsevier Ltd. All rights reserved. This paper will propose a topology optimization approach for the design of large displacement compliant mechanisms with geometrical non-linearity by using the element-free Galerkin (EFG) method. In this method, the Shepard function is applied to construct a physically meaningful density approximant, to account for its non-negative and range-bounded property. Firstly, in terms of the original nodal density field, the Shepard function method functionally similar to a density filter is used to generate a non-local nodal density field with enriched smoothness over the design domain. The density of any node can be evaluated according to the nodal density variables located inside the influence domain of t...
106 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.The overall objective is to c...
Compliant mechanisms are joint-free monolithic substitutes for multi-membered rigid-body mechanisms....
Compliant mechanisms are a class of mechanisms that achieve desired force and motion transmission by...
This paper presents a new method for topology optimization of geometrical nonlinear compliant mechan...
This paper aims to propose a new structural topology optimization method using a Shepard function ap...
This paper presents a meshless Galerkin level-set method (MGLSM) for shape and topology optimization...
This paper proposes an alternative topology optimization method for the optimal design of continuum ...
To avoid static strength failure caused by large deflection, a design method for topology optimizati...
Topology optimization problems for compliant mechanisms using a density interpolation scheme, the ra...
This article presents an alternative topology optimization method for the design of compliant actuat...
The topology optimization problem for the synthesis of compliant mechanisms has been formulated in m...
This paper is focused on the topology design of compliant mechanisms undergoing large displacement (...
A parameterization level set method is presented for structural shape and topology optimization of c...
In topology optimization of compliant mechanisms, the specific placement of boundary conditions stro...
Another interesting area we investigate is topology optimization with geometric control. Our initial...
106 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.The overall objective is to c...
Compliant mechanisms are joint-free monolithic substitutes for multi-membered rigid-body mechanisms....
Compliant mechanisms are a class of mechanisms that achieve desired force and motion transmission by...
This paper presents a new method for topology optimization of geometrical nonlinear compliant mechan...
This paper aims to propose a new structural topology optimization method using a Shepard function ap...
This paper presents a meshless Galerkin level-set method (MGLSM) for shape and topology optimization...
This paper proposes an alternative topology optimization method for the optimal design of continuum ...
To avoid static strength failure caused by large deflection, a design method for topology optimizati...
Topology optimization problems for compliant mechanisms using a density interpolation scheme, the ra...
This article presents an alternative topology optimization method for the design of compliant actuat...
The topology optimization problem for the synthesis of compliant mechanisms has been formulated in m...
This paper is focused on the topology design of compliant mechanisms undergoing large displacement (...
A parameterization level set method is presented for structural shape and topology optimization of c...
In topology optimization of compliant mechanisms, the specific placement of boundary conditions stro...
Another interesting area we investigate is topology optimization with geometric control. Our initial...
106 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.The overall objective is to c...
Compliant mechanisms are joint-free monolithic substitutes for multi-membered rigid-body mechanisms....
Compliant mechanisms are a class of mechanisms that achieve desired force and motion transmission by...