Parts with complex geometry can be produced by an additive manufacturing process without a significant increase of fabrication time and cost. One application of AM technologies is to fabricate customized lattice structures to enhance products’ performance with less material and less weight. Thus, design methods of customized lattice structures have recently attracted great research interests. Most existing design methods only consider the distribution of lattice struts’ thickness as a primary design variable for customized lattice structures. Few of them notice the importance of lattice orientation with regard to its structural performance. In this paper, a design method for customized lattice-skin structures is proposed to optimize ...
Inspired by natural cellular materials such as trabecular bone, lattice structures have been develop...
Additive Manufacturing (AM) technology provides new opportunities to automatically and flexibly fabr...
This thesis advances novel computational techniques to design multi-material, multi-scale and progra...
Parts with complex geometry can be produced by an additive manufacturing process without a signific...
Additive manufacturing technologies enable the fabrication of parts characterized by shape complexit...
In this paper we present a numerical investigation into surface-based lattice structures with the ai...
Additive Manufacturing (AM) enables the production of geometrically complex parts that are difficult...
A number of strategies that enable lattice structures to be derived from Topology Optimisation (TO) ...
Lattice materials are characterized at the microscopic level by a regular pattern of voids confined ...
Periodic cellular solids offer an intuitive solution for lightweight designs as they provide the mea...
In the field of additive manufacturing, highly ordered cellular structures with repeating patterns ...
open access articleA number of strategies that enable lattice structures to be derived from Topology...
This paper presents an experimentally validated framework used to perform topology and orientation (...
Due to the limited amount of resources, the consequent application of efficient lightweight design i...
One application of additive manufacturing is for fabrication of customized, light-weight material c...
Inspired by natural cellular materials such as trabecular bone, lattice structures have been develop...
Additive Manufacturing (AM) technology provides new opportunities to automatically and flexibly fabr...
This thesis advances novel computational techniques to design multi-material, multi-scale and progra...
Parts with complex geometry can be produced by an additive manufacturing process without a signific...
Additive manufacturing technologies enable the fabrication of parts characterized by shape complexit...
In this paper we present a numerical investigation into surface-based lattice structures with the ai...
Additive Manufacturing (AM) enables the production of geometrically complex parts that are difficult...
A number of strategies that enable lattice structures to be derived from Topology Optimisation (TO) ...
Lattice materials are characterized at the microscopic level by a regular pattern of voids confined ...
Periodic cellular solids offer an intuitive solution for lightweight designs as they provide the mea...
In the field of additive manufacturing, highly ordered cellular structures with repeating patterns ...
open access articleA number of strategies that enable lattice structures to be derived from Topology...
This paper presents an experimentally validated framework used to perform topology and orientation (...
Due to the limited amount of resources, the consequent application of efficient lightweight design i...
One application of additive manufacturing is for fabrication of customized, light-weight material c...
Inspired by natural cellular materials such as trabecular bone, lattice structures have been develop...
Additive Manufacturing (AM) technology provides new opportunities to automatically and flexibly fabr...
This thesis advances novel computational techniques to design multi-material, multi-scale and progra...