Shape optimization of mechanical devices is investigated in the context of large, geometrically strongly nonlinear deformations and nonlinear hyperelastic constitutive laws. A weighted sum of the structure compliance, its weight, and its surface area are minimized. The resulting nonlinear elastic optimization problem differs significantly from classical shape optimization in linearized elasticity. Indeed, there exist different definitions for the compliance: the change in potential energy of the surface load, the stored elastic deformation energy, and the dissipation associated with the deformation. Furthermore, elastically optimal deformations are no longer unique so that one has to choose the minimizing elastic deformation for which the c...
In this paper the topology optimization problem is solved in a finite strain setting using a polycon...
A phase-field based topology optimization approach is considered for the maximum stiffness or minimu...
The goal of this paper is to study the so-called worst-case or robust optimal design problem for min...
A cost function involving the eigenvalues of an elastic structure is optimized using a phase-field a...
Significant performance improvements can be obtained if the topology of an elastic structure is allo...
This paper discusses a structural optimization method that optimizes shape and topology based on the...
A phase field approach for structural topology optimization which allows for topology changes and mu...
We consider the optimal distribution of several elastic materials in a fixed working domai...
We formulate a general shape and topology optimization problem in structural optimization by using a...
We describe a general phase-field model for hyperelastic multiphase materials. The model features an...
summary:Existence of an optimal shape of a deformable body made from a physically nonlinear material...
Compliant mechanisms are joint-free monolithic substitutes for multi-membered rigid-body mechanisms....
We formulate a general shape and topology optimization problem in structural optimization by using a...
This work addresses the treatment of lower density regions of structures undergoing large deformatio...
International audienceThe goal of this paper is to study the so-called worst-case or robust optimal ...
In this paper the topology optimization problem is solved in a finite strain setting using a polycon...
A phase-field based topology optimization approach is considered for the maximum stiffness or minimu...
The goal of this paper is to study the so-called worst-case or robust optimal design problem for min...
A cost function involving the eigenvalues of an elastic structure is optimized using a phase-field a...
Significant performance improvements can be obtained if the topology of an elastic structure is allo...
This paper discusses a structural optimization method that optimizes shape and topology based on the...
A phase field approach for structural topology optimization which allows for topology changes and mu...
We consider the optimal distribution of several elastic materials in a fixed working domai...
We formulate a general shape and topology optimization problem in structural optimization by using a...
We describe a general phase-field model for hyperelastic multiphase materials. The model features an...
summary:Existence of an optimal shape of a deformable body made from a physically nonlinear material...
Compliant mechanisms are joint-free monolithic substitutes for multi-membered rigid-body mechanisms....
We formulate a general shape and topology optimization problem in structural optimization by using a...
This work addresses the treatment of lower density regions of structures undergoing large deformatio...
International audienceThe goal of this paper is to study the so-called worst-case or robust optimal ...
In this paper the topology optimization problem is solved in a finite strain setting using a polycon...
A phase-field based topology optimization approach is considered for the maximum stiffness or minimu...
The goal of this paper is to study the so-called worst-case or robust optimal design problem for min...