In this paper a phase-field approach for structural topology optimization for a 3D-printing process which includes stress constraint and potentially multiple materials or multiscales is analyzed. First order necessary optimality conditions are rigorously derived and a numerical algorithm which implements the method is presented. A sensitivity study with respect to some parameters is conducted for a two-dimensional cantilever beam problem. Finally, a possible workflow to obtain a 3D-printed object from the numerical solutions is described and the final structure is printed using a fused deposition modeling (FDM) 3D printer
The development of new materials and new manufacturing techniques have experienced a rapid developme...
This work concerns a structural topology optimisation problem for 4D printing based on the phase fie...
The paper presents a new methodology dedicated to design for additive manufacturing. Based on a hybr...
In this paper a phase-field approach for structural topology optimization for a 3D-printing process ...
In Topology Optimization the goal is to find the ideal material distribution in a domain subject to ...
In this paper, a phase-field approach for structural topology optimization for a 3D-printing process...
In this thesis a method is presented to couple additive manufacturing simulations with topology opti...
This thesis a method is described to include manufacturing constraints of the additive manufacturing...
Topology optimization is a powerful free-form design tool that couples finite element analysis with ...
The main aim of this project is to assess the use of topology optimization (TO) methods in additive...
An important cause of failure in powder bed additive manufacturing is the distortion of the part due...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
Topology optimization is an optimization method to reduce material usage while also enhance the tens...
Although additive manufacturing (AM) continues to gain widespread adoption, the overhang problem rem...
Additive manufacturing encompasses all technologies that produce three-dimensional objects, usually ...
The development of new materials and new manufacturing techniques have experienced a rapid developme...
This work concerns a structural topology optimisation problem for 4D printing based on the phase fie...
The paper presents a new methodology dedicated to design for additive manufacturing. Based on a hybr...
In this paper a phase-field approach for structural topology optimization for a 3D-printing process ...
In Topology Optimization the goal is to find the ideal material distribution in a domain subject to ...
In this paper, a phase-field approach for structural topology optimization for a 3D-printing process...
In this thesis a method is presented to couple additive manufacturing simulations with topology opti...
This thesis a method is described to include manufacturing constraints of the additive manufacturing...
Topology optimization is a powerful free-form design tool that couples finite element analysis with ...
The main aim of this project is to assess the use of topology optimization (TO) methods in additive...
An important cause of failure in powder bed additive manufacturing is the distortion of the part due...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
Topology optimization is an optimization method to reduce material usage while also enhance the tens...
Although additive manufacturing (AM) continues to gain widespread adoption, the overhang problem rem...
Additive manufacturing encompasses all technologies that produce three-dimensional objects, usually ...
The development of new materials and new manufacturing techniques have experienced a rapid developme...
This work concerns a structural topology optimisation problem for 4D printing based on the phase fie...
The paper presents a new methodology dedicated to design for additive manufacturing. Based on a hybr...