A multi-objective scheme for structural topology optimization of distributed compliant mechanisms of micro-actuators in MEMS condition is presented in this work, in which mechanical flexibility and structural stiffness are both considered as objective functions. The compliant micro-mechanism developed in this way can not only provide sufficient output work but also have sufficient rigidity to resist reaction forces and maintain its shape when holding the work-piece. A density filtering approach is also proposed to eliminate numerical instabilities such as checkerboards, mesh-dependency and one-node connected hinges occurring in resulting mechanisms. SIMP is used as the interpolation scheme to indicate the dependence of material modulus on e...
This article presents an alternative topology optimization method for the design of compliant actuat...
This paper develops a bi-directional evolutionary structural optimization (BESO) method for topologi...
Summarization: Designing micro-structures that lead to materials with negative Poisson’s ratio, the ...
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...
In this work, compliant mechanisms are designed by using multi-objective topology optimization, wher...
This paper focuses on a new type of configuration design of a compliant parallel mechanism (CPM) pla...
Compliant mechanisms are joint-free monolithic substitutes for multi-membered rigid-body mechanisms....
© 2018 Journal of Mechanical Engineering. The topological optimization of multi-material compliant m...
The topology optimization problem for the synthesis of compliant mechanisms has been formulated in m...
This paper presents an alternative method in implementing multi-objective optimization of compliant ...
In this paper, a parameterization approach is presented for structural shape and topology optimizati...
Compliant mechanisms attain their mobility from flexibility of their structure instead of depending ...
The focus of this research is on the development of a novel multi-disciplinary design optimization s...
The topology synthesis approach can generate a creative initial optimized configuration and can gene...
This article presents an alternative topology optimization method for the design of compliant actuat...
This paper develops a bi-directional evolutionary structural optimization (BESO) method for topologi...
Summarization: Designing micro-structures that lead to materials with negative Poisson’s ratio, the ...
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...
In this work, compliant mechanisms are designed by using multi-objective topology optimization, wher...
This paper focuses on a new type of configuration design of a compliant parallel mechanism (CPM) pla...
Compliant mechanisms are joint-free monolithic substitutes for multi-membered rigid-body mechanisms....
© 2018 Journal of Mechanical Engineering. The topological optimization of multi-material compliant m...
The topology optimization problem for the synthesis of compliant mechanisms has been formulated in m...
This paper presents an alternative method in implementing multi-objective optimization of compliant ...
In this paper, a parameterization approach is presented for structural shape and topology optimizati...
Compliant mechanisms attain their mobility from flexibility of their structure instead of depending ...
The focus of this research is on the development of a novel multi-disciplinary design optimization s...
The topology synthesis approach can generate a creative initial optimized configuration and can gene...
This article presents an alternative topology optimization method for the design of compliant actuat...
This paper develops a bi-directional evolutionary structural optimization (BESO) method for topologi...
Summarization: Designing micro-structures that lead to materials with negative Poisson’s ratio, the ...