New technologies and rising customer expectations are motivating key improvements in the construction sector towards more integrated and organic systems using novel computational fabrication processes. Natural systems are dependent upon stress or strain requirements where the material properties are optimally distributed. Using heterogeneous composite materials with a variable material distribution for distinct functional requirements, similar to natural structures, will enable to model, simulate and fabricate construction elements with specific loading conditions. This work has developed a strategy to optimize material composition, through an algorithm editor combined with a FEM software. The code was created to locally adjust a multi-mate...
A computational method for generating porous materials and composite structures was developed and im...
When it comes to designing a structure, architects and engineers want to join forces in order to cre...
Polycrystalline materials can be characterized by the preferred orientation of grains within a mater...
New technologies and rising customer expectations are motivating key improvements in the constructio...
The construction sector is under increasing pressure to improve its efficiency and effectiveness, re...
The authors wish also to thank Professor Krister Svanberg (Royal Institute of Technology, Stockholm,...
A component may be made of different materials in its different regions to satisfy different require...
Engineers evaluating the performance of a component at the design stage will typically convert Compu...
The objective of this research is to develop a robust methodology for the design of functionally gra...
As multi-material additive manufacturing technologies mature, a new opportunity for materials scienc...
Thesis (Master's)--University of Washington, 2018Design with conventional, homogeneous materials has...
Additive manufacturing (AM) technologies have been evolved over the last decade, enabling engineers ...
As the demand for new materials grows in the world, it is important to create materials that can giv...
Manufacturing processes and parameters have played a crucial role in the design and analysis of comp...
The field of structural engineering has seen a steady rise in computational optimization, where opti...
A computational method for generating porous materials and composite structures was developed and im...
When it comes to designing a structure, architects and engineers want to join forces in order to cre...
Polycrystalline materials can be characterized by the preferred orientation of grains within a mater...
New technologies and rising customer expectations are motivating key improvements in the constructio...
The construction sector is under increasing pressure to improve its efficiency and effectiveness, re...
The authors wish also to thank Professor Krister Svanberg (Royal Institute of Technology, Stockholm,...
A component may be made of different materials in its different regions to satisfy different require...
Engineers evaluating the performance of a component at the design stage will typically convert Compu...
The objective of this research is to develop a robust methodology for the design of functionally gra...
As multi-material additive manufacturing technologies mature, a new opportunity for materials scienc...
Thesis (Master's)--University of Washington, 2018Design with conventional, homogeneous materials has...
Additive manufacturing (AM) technologies have been evolved over the last decade, enabling engineers ...
As the demand for new materials grows in the world, it is important to create materials that can giv...
Manufacturing processes and parameters have played a crucial role in the design and analysis of comp...
The field of structural engineering has seen a steady rise in computational optimization, where opti...
A computational method for generating porous materials and composite structures was developed and im...
When it comes to designing a structure, architects and engineers want to join forces in order to cre...
Polycrystalline materials can be characterized by the preferred orientation of grains within a mater...