This paper gives an overview of the issues and opportunities for the application of topology optimization methods for additive manufacturing (AM). The main analysis issues discussed are: how to achieve the maximum geometric resolution to allow the fine features easily manufacturable by AM to be represented in the optimization model; the manufacturing constraints to be considered, and the workflow modifications required to handle the geometric complexity in the post optimization stages. The main manufacturing issues discussed are the potential for realizing intermediate density regions, in the case of the solid isotropic material with penalization (SIMP) approach, the use of small scale lattice structures, the use of multiple materia...
Topology optimization provides design engineers the opportunity to create light and complex structur...
Additive Manufacturing (AM), also known as rapid prototyping, rapid manufacturing, layer manufacturi...
The potential of topology optimization to amplify the benefits of additive manufacturing (AM), by fu...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
Manufacturing-oriented topology optimization has been extensively studied the past two decades, in p...
The development of new materials and new manufacturing techniques have experienced a rapid developme...
Topology optimization is an optimization method that employs mathematical tools to optimize material...
Additive manufacturing (AM) is expanding the range of designable geometries, but to exploit this ev...
Designs to be manufactured by Additive Manufacturing (AM) are subject to geometrical restrictions wh...
In this thesis a method is presented to couple additive manufacturing simulations with topology opti...
Topology Optimization is currently the main technique to optimize an objects structural design. This...
Topology optimization is a mathematical approach that deals with determination of connectivity, geom...
Additive manufacturing (AM) offers exciting opportunities to manufacture parts of unprecedented comp...
The topology optimization (TO) of structures to be produced using additive manufacturing (AM) is ex...
This paper describes an approach for designing lightweight components produced through additive manu...
Topology optimization provides design engineers the opportunity to create light and complex structur...
Additive Manufacturing (AM), also known as rapid prototyping, rapid manufacturing, layer manufacturi...
The potential of topology optimization to amplify the benefits of additive manufacturing (AM), by fu...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
Manufacturing-oriented topology optimization has been extensively studied the past two decades, in p...
The development of new materials and new manufacturing techniques have experienced a rapid developme...
Topology optimization is an optimization method that employs mathematical tools to optimize material...
Additive manufacturing (AM) is expanding the range of designable geometries, but to exploit this ev...
Designs to be manufactured by Additive Manufacturing (AM) are subject to geometrical restrictions wh...
In this thesis a method is presented to couple additive manufacturing simulations with topology opti...
Topology Optimization is currently the main technique to optimize an objects structural design. This...
Topology optimization is a mathematical approach that deals with determination of connectivity, geom...
Additive manufacturing (AM) offers exciting opportunities to manufacture parts of unprecedented comp...
The topology optimization (TO) of structures to be produced using additive manufacturing (AM) is ex...
This paper describes an approach for designing lightweight components produced through additive manu...
Topology optimization provides design engineers the opportunity to create light and complex structur...
Additive Manufacturing (AM), also known as rapid prototyping, rapid manufacturing, layer manufacturi...
The potential of topology optimization to amplify the benefits of additive manufacturing (AM), by fu...