Handling stress constraints is an important topic in topology optimization. In this paper, we introduce an interpretation of stresses as optimization variables, leading to an augmented Lagrangian formulation. This formulation takes two sets of optimization variables, i.e., an auxiliary stress variable per element, in addition to a density variable as in conventional density-based approaches. The auxiliary stress is related to the actual stress (i.e., computed by its definition) by an equality constraint. When the equality constraint is strictly satisfied, an upper bound imposed on the auxiliary stress design variable equivalently applies to the actual stress. The equality constraint is incorporated into the objective function as linear and ...
The paper continues along the work initiated by the authors in taking into account stress constraint...
We present a novel topology optimization formulation capable to handle in a straightforward fashion ...
AbstractTopology optimization of continuum structures is a relatively new branch of the structural o...
Handling stress constraints is an important topic in topology optimization. In this paper, we introd...
This thesis contains contributions to the development of topology optimization techniques capable of...
The paper deals with the imposition of local stress constraints in topology optimization. The aim of...
Sizing and shape structural optimization problems are normally stated in terms of a minimum weight a...
International audienceMost of the methods used today for handling local stress constraints in topolo...
This paper develops and evaluates a method for handling stress constraints in topology optimization....
We present a novel topology optimization formulation capable to handle the presence of stress constr...
peer reviewedThere is a general interest to consider stress constraints in topology optimization of ...
We present an alternative topology optimization formulation capable of handling the presence of stre...
[[abstract]]This paper presents an integrated process of structural topology optimization in minimiz...
For aeronautical applications of topology optimization, it is of importance to develop topology opti...
The paper continues along the work initiated by the authors in taking into account stress constraint...
We present a novel topology optimization formulation capable to handle in a straightforward fashion ...
AbstractTopology optimization of continuum structures is a relatively new branch of the structural o...
Handling stress constraints is an important topic in topology optimization. In this paper, we introd...
This thesis contains contributions to the development of topology optimization techniques capable of...
The paper deals with the imposition of local stress constraints in topology optimization. The aim of...
Sizing and shape structural optimization problems are normally stated in terms of a minimum weight a...
International audienceMost of the methods used today for handling local stress constraints in topolo...
This paper develops and evaluates a method for handling stress constraints in topology optimization....
We present a novel topology optimization formulation capable to handle the presence of stress constr...
peer reviewedThere is a general interest to consider stress constraints in topology optimization of ...
We present an alternative topology optimization formulation capable of handling the presence of stre...
[[abstract]]This paper presents an integrated process of structural topology optimization in minimiz...
For aeronautical applications of topology optimization, it is of importance to develop topology opti...
The paper continues along the work initiated by the authors in taking into account stress constraint...
We present a novel topology optimization formulation capable to handle in a straightforward fashion ...
AbstractTopology optimization of continuum structures is a relatively new branch of the structural o...