This paper proposes a new level-set-based topology optimization method for magnetic actuator design using remeshing techniques that can generate meshes on the exact structural boundaries to improve the accuracy of finite-element analysis. Two remeshing techniques, such as the modified adaptive mesh method and the extended finite-element method (XFEM), are introduced for the optimization process. To control the computational time with meshing that is economical and analysis that is accurate, a new resolution parameter that can manage the level of mesh density around the level-set boundaries is employed in the modified adaptive mesh method. In the XFEM, the enrichment term in the element shape function is employed to track the exact outer bou...
This paper proposes an efficient design methodology for obtaining the optimal distribution of the mu...
When applied to the topology optimization of electromagnetic devices, gradient-based algorithms suff...
In this short note, a shape and topology optimization method is presented for multiphysics actuators...
This paper proposes the level set based design optimization of magnetic actuator using the adaptive ...
This paper presents a novel design methodology for optimum structural design of magnetic actuators u...
To obtain weight reduction and high performance, using level set based topology optimization in magn...
In the practical design of magnetic actuators, the effect of magnetic saturation usually plays an im...
This paper aims at the development of a topology optimization method for magnetic actuator design us...
To improve the performance of magnetic devices, it is required to obtain the optimal topology of a s...
Level-set method has been successfully applied to find optimal distribution of single material in ma...
This paper presents a multi-component layout optimization method that incorporates a parametric and ...
Topology optimization methods aim to design devices in an automated way. The designer defines a desi...
In this paper, a new approach to achieve the optimal design of a permanent magnetic actuator for max...
Topology optimization methods suffer from a lack of convexity for the design of electromagnetic devi...
Copyright © 2020 ASME. Ferromagnetic soft materials (FSM) can generate flexible movement and shift m...
This paper proposes an efficient design methodology for obtaining the optimal distribution of the mu...
When applied to the topology optimization of electromagnetic devices, gradient-based algorithms suff...
In this short note, a shape and topology optimization method is presented for multiphysics actuators...
This paper proposes the level set based design optimization of magnetic actuator using the adaptive ...
This paper presents a novel design methodology for optimum structural design of magnetic actuators u...
To obtain weight reduction and high performance, using level set based topology optimization in magn...
In the practical design of magnetic actuators, the effect of magnetic saturation usually plays an im...
This paper aims at the development of a topology optimization method for magnetic actuator design us...
To improve the performance of magnetic devices, it is required to obtain the optimal topology of a s...
Level-set method has been successfully applied to find optimal distribution of single material in ma...
This paper presents a multi-component layout optimization method that incorporates a parametric and ...
Topology optimization methods aim to design devices in an automated way. The designer defines a desi...
In this paper, a new approach to achieve the optimal design of a permanent magnetic actuator for max...
Topology optimization methods suffer from a lack of convexity for the design of electromagnetic devi...
Copyright © 2020 ASME. Ferromagnetic soft materials (FSM) can generate flexible movement and shift m...
This paper proposes an efficient design methodology for obtaining the optimal distribution of the mu...
When applied to the topology optimization of electromagnetic devices, gradient-based algorithms suff...
In this short note, a shape and topology optimization method is presented for multiphysics actuators...