Abstract in UndeterminedThe topology optimization problem is formulated in a phase-field approach. The solution procedure is based on the Allan–Cahn diffusion model where the conservation of volume is enforced by a global constraint. The functional defining the minimization problem is selected such that no penalization is imposed for full and void materials. Upper and lower bounds of the density function are enforced by infinite penalty at the bounds. A gradient term that introduces cost for boundaries and thereby regularizing the problem is also included in the objective functional. Conditions for stationarity of the functional are derived, and it is shown that the problem can be stated as a variational inequality or a max–min problem, bot...
Filtering has been a major technique used in a homogenization-based method for topology optimization...
We consider a variety of shape and topology optimization problems in which the cost functional alway...
In this paper we introduce a new formulation for shape optimization problems in fluids in a diffuse ...
The topology optimization problem is formulated in a phase-field approach. The solution procedure is...
We consider a phase field model for the formulation and solution of topology optimization problems i...
We consider a phase field model for the formulation and solution of topology optimization problems i...
summary:The paper deals with the analysis and the numerical solution of the topology optimization of...
Topology optimization finds the optimal material distribution of a continuum in a domain, subject to...
A phase-field based topology optimization approach is considered for the maximum stiffness or minimu...
Abstract in Undetermined A topology optimization method allowing for perimeter control is presented....
A multi‐material topology optimization scheme is presented. The formulation includes an arbitrary nu...
Multi-material structural topology and shape optimization problems are formulated within a phase fie...
A phase field approach for structural topology optimization which allows for topology changes and mu...
We propose a variational principle combining a phase-field functional for structural topology optimi...
We formulate a general shape and topology optimization problem in structural optimization by using a...
Filtering has been a major technique used in a homogenization-based method for topology optimization...
We consider a variety of shape and topology optimization problems in which the cost functional alway...
In this paper we introduce a new formulation for shape optimization problems in fluids in a diffuse ...
The topology optimization problem is formulated in a phase-field approach. The solution procedure is...
We consider a phase field model for the formulation and solution of topology optimization problems i...
We consider a phase field model for the formulation and solution of topology optimization problems i...
summary:The paper deals with the analysis and the numerical solution of the topology optimization of...
Topology optimization finds the optimal material distribution of a continuum in a domain, subject to...
A phase-field based topology optimization approach is considered for the maximum stiffness or minimu...
Abstract in Undetermined A topology optimization method allowing for perimeter control is presented....
A multi‐material topology optimization scheme is presented. The formulation includes an arbitrary nu...
Multi-material structural topology and shape optimization problems are formulated within a phase fie...
A phase field approach for structural topology optimization which allows for topology changes and mu...
We propose a variational principle combining a phase-field functional for structural topology optimi...
We formulate a general shape and topology optimization problem in structural optimization by using a...
Filtering has been a major technique used in a homogenization-based method for topology optimization...
We consider a variety of shape and topology optimization problems in which the cost functional alway...
In this paper we introduce a new formulation for shape optimization problems in fluids in a diffuse ...