A robust three-dimensional multiscale topology optimisation framework with concurrent coupling between scales is presented. Concurrent coupling ensures that only the microscale data required to evaluate the macroscale model during each iteration of optimisation is collected and results in considerable computational savings. This represents the principal novelty of the framework and permits a previously intractable number of design variables to be used in the parametrisation of the microscale geometry, which in turn enables accessibility to a greater range of mechanical point properties during optimisation. Additionally, the microscale data collected during optimisation is stored in a re-usable database, further reducing the computational ex...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
The driver for this research is the development of multi-material additive manufacturing processes t...
Topology optimization is an effective tool for the design of efficient engineering structures. The v...
A robust three-dimensional multiscale structural optimization framework with concurrent coupling bet...
This work establishes a robust concurrent multiscale optimization framework which facilitates the pr...
This paper develops a robust framework for the multiscale design of three-dimensional lattices with ...
This thesis develops a robust framework for the multiscale design of three-dimensional lattices with...
Acknowledgments The authors acknowledge the support from Engineering and Physical Sciences Research ...
High-performance heterogeneous materials have been increasingly used nowadays for their advantageous...
Advancements in multimaterial additive manufacturing have the potential to enable the creation of to...
Additive manufacturing (AM) offers a way to manufacture highly complex designs with potentially enha...
The work deals on computational design of structural materials by resorting to computational homogen...
A number of strategies that enable lattice structures to be derived from Topology Optimisation (TO) ...
Mechanical and physical properties of complex heterogeneous materials are determined on one hand by ...
This Ph.D. thesis focuses on the integration of specificities of the multi-scale analysis and of the...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
The driver for this research is the development of multi-material additive manufacturing processes t...
Topology optimization is an effective tool for the design of efficient engineering structures. The v...
A robust three-dimensional multiscale structural optimization framework with concurrent coupling bet...
This work establishes a robust concurrent multiscale optimization framework which facilitates the pr...
This paper develops a robust framework for the multiscale design of three-dimensional lattices with ...
This thesis develops a robust framework for the multiscale design of three-dimensional lattices with...
Acknowledgments The authors acknowledge the support from Engineering and Physical Sciences Research ...
High-performance heterogeneous materials have been increasingly used nowadays for their advantageous...
Advancements in multimaterial additive manufacturing have the potential to enable the creation of to...
Additive manufacturing (AM) offers a way to manufacture highly complex designs with potentially enha...
The work deals on computational design of structural materials by resorting to computational homogen...
A number of strategies that enable lattice structures to be derived from Topology Optimisation (TO) ...
Mechanical and physical properties of complex heterogeneous materials are determined on one hand by ...
This Ph.D. thesis focuses on the integration of specificities of the multi-scale analysis and of the...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
The driver for this research is the development of multi-material additive manufacturing processes t...
Topology optimization is an effective tool for the design of efficient engineering structures. The v...