Purpose This paper aims to establish a multiscale topology optimization method for the optimal design of non-periodic, self-supporting cellular structures subjected to thermo-mechanical loads. The result is a hierarchically complex design that is thermally efficient, mechanically stable and suitable for additive manufacturing (AM). Design/methodology/approach The proposed method seeks to maximize thermo-mechanical performance at the macroscale in a conceptual design while obtaining maximum shear modulus for each unit cell at the mesoscale. Then, the macroscale performance is re-estimated, and the mesoscale design is updated until the macroscale performance is satisfied. Findings A two-dimensional Messerschmitt Bolkow Bolhm (MBB) be...
This paper presents an optimization technique for structures composed of uniform cellular materials ...
Design for Additive Manufacturing (AM) includes concepts such as cellular materials and topology op...
This paper develops a robust framework forthe multiscale design of three-dimensional lattices with m...
During the injection molding cycle, molten material is injected at high pressure inside the mold and...
This work presents a topology optimization approach for lattice structures subjected to thermal and ...
Cellular structures are promising candidates for additive manufacturing to design lightweight and c...
This work presents a systematic and practical finite element based design optimization approach for ...
Topology optimization is a free-form approach to structural design in which a formal optimization pr...
This thesis develops a robust framework for the multiscale design of three-dimensional lattices with...
The current work examines the principle of topology optimization (TOP) and solving the problem of m...
poster abstractAbstract This is a framework for optimizing additive manufacturing of plastic inject...
Lattice Heat Transfer (LHT) structures provide superior structural support while improving the heat ...
The advances in additive manufacturing (AM) have opened new possibilities in design and manufacturin...
To take advantage of multi-material additive manufacturing technology using mixtures of metal alloys...
AbstractThis work presents implementation of numerical analysis and topology optimization techniques...
This paper presents an optimization technique for structures composed of uniform cellular materials ...
Design for Additive Manufacturing (AM) includes concepts such as cellular materials and topology op...
This paper develops a robust framework forthe multiscale design of three-dimensional lattices with m...
During the injection molding cycle, molten material is injected at high pressure inside the mold and...
This work presents a topology optimization approach for lattice structures subjected to thermal and ...
Cellular structures are promising candidates for additive manufacturing to design lightweight and c...
This work presents a systematic and practical finite element based design optimization approach for ...
Topology optimization is a free-form approach to structural design in which a formal optimization pr...
This thesis develops a robust framework for the multiscale design of three-dimensional lattices with...
The current work examines the principle of topology optimization (TOP) and solving the problem of m...
poster abstractAbstract This is a framework for optimizing additive manufacturing of plastic inject...
Lattice Heat Transfer (LHT) structures provide superior structural support while improving the heat ...
The advances in additive manufacturing (AM) have opened new possibilities in design and manufacturin...
To take advantage of multi-material additive manufacturing technology using mixtures of metal alloys...
AbstractThis work presents implementation of numerical analysis and topology optimization techniques...
This paper presents an optimization technique for structures composed of uniform cellular materials ...
Design for Additive Manufacturing (AM) includes concepts such as cellular materials and topology op...
This paper develops a robust framework forthe multiscale design of three-dimensional lattices with m...