The topology optimization (TO) of structures to be produced using additive manufacturing (AM) is explored using a data-driven constraint function on the minimum producible size of small features in different shapes and orientations. This shape- and orientation-dependent manufacturing constraint, derived from experimental data, is implemented within a TO framework using a modified version of the Moving Morphable Components (MMC) approach. Because the analytic constraint function is fully differentiable, gradient-based optimization can be used. The MMC approach is extended in this work to include a “bootstrapping” step, which provides initial component layouts to the MMC algorithm based on intermediate Solid Isotropic Material with Pe...
This paper describes an approach for designing lightweight components produced through additive manu...
Additive manufacturing (AM), known for its ability to manufacture complex shapes, is becoming an ess...
The potential of topology optimization to amplify the benefits of additive manufacturing (AM), by fu...
This paper addresses two issues: 1. Topology optimization (TO) yields designs that may require supp...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
The development of new materials and new manufacturing techniques have experienced a rapid developme...
Manufacturing-oriented topology optimization has been extensively studied the past two decades, in p...
Designs to be manufactured by Additive Manufacturing (AM) are subject to geometrical restrictions wh...
Topology optimization is a mathematical approach that deals with determination of connectivity, geom...
Topology optimisation enables profound insight into the optimal material distribution for a given st...
In this work, the Solid Isotropic Material with Penalization (SIMP) topology optimization (TO) metho...
In this thesis a method is presented to couple additive manufacturing simulations with topology opti...
Additive manufacturing (AM) and topology optimization have allowed a significant progress in the dev...
Additive manufacturing (AM) offers exciting opportunities to manufacture parts of unprecedented comp...
Additive manufacturing is a potentially disruptive technology with a high impact on supply chains an...
This paper describes an approach for designing lightweight components produced through additive manu...
Additive manufacturing (AM), known for its ability to manufacture complex shapes, is becoming an ess...
The potential of topology optimization to amplify the benefits of additive manufacturing (AM), by fu...
This paper addresses two issues: 1. Topology optimization (TO) yields designs that may require supp...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
The development of new materials and new manufacturing techniques have experienced a rapid developme...
Manufacturing-oriented topology optimization has been extensively studied the past two decades, in p...
Designs to be manufactured by Additive Manufacturing (AM) are subject to geometrical restrictions wh...
Topology optimization is a mathematical approach that deals with determination of connectivity, geom...
Topology optimisation enables profound insight into the optimal material distribution for a given st...
In this work, the Solid Isotropic Material with Penalization (SIMP) topology optimization (TO) metho...
In this thesis a method is presented to couple additive manufacturing simulations with topology opti...
Additive manufacturing (AM) and topology optimization have allowed a significant progress in the dev...
Additive manufacturing (AM) offers exciting opportunities to manufacture parts of unprecedented comp...
Additive manufacturing is a potentially disruptive technology with a high impact on supply chains an...
This paper describes an approach for designing lightweight components produced through additive manu...
Additive manufacturing (AM), known for its ability to manufacture complex shapes, is becoming an ess...
The potential of topology optimization to amplify the benefits of additive manufacturing (AM), by fu...