Even though additive manufacturing is receiving increasing interest from aerospace, automotive, and shipbuilding, the legacy approach using tessellated form representation and cross-section slice algorithm still has the essential limitation of its inaccuracy of geometrical information and volumetric losses of final outputs. This paper introduces an innovative method to represent multi-material and multi-directional layers defined in boundary-representation standard model and to process complex sliced layers without missing volumes by using the proposed squashing operation. Applications of the proposed method to a bending part, an internal structure, and an industrial moulding product show the assurance of building original shape without mis...
In Additive Manufacturing (AM) processes, the layer-by-layer fabrication of complex geometries may ...
The additive manufacturing (AM) technologies allow producing components layer upon layer in a comple...
Our research aims to push the limits of 3D printing towards the structural design and optimization. ...
abstract: A method has been developed that employs both procedural and optimization algorithms to ad...
A key process in additive manufacturing is converting a 3D model into a set of instructions that a ...
A study on the possibilities of adaptive slicing initial 3D model (given by the STL-file) is present...
In the context of additive manufacturing we present a novel technique for direct slicing of a dilate...
An adaptive slicing algorithm that can vary the layer thickness in relation to local geometry is pre...
In contrast to standard layer based additive manufacturing methodologies, multi-axis material deposi...
Additive manufacturing is becoming one of the key methods for reproducing repair sections in remanuf...
Additive manufacturing has the potential to provide novel solutions for fabricating complex structur...
Additive manufacturing (3D Printing) has become a promising manufacturing method as it can produce p...
AbstractOne of the major constraints of additive manufacturing processes is its relatively slower sp...
Fabricating fully dense and functional metallic components is one of the important challenges in Add...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...
In Additive Manufacturing (AM) processes, the layer-by-layer fabrication of complex geometries may ...
The additive manufacturing (AM) technologies allow producing components layer upon layer in a comple...
Our research aims to push the limits of 3D printing towards the structural design and optimization. ...
abstract: A method has been developed that employs both procedural and optimization algorithms to ad...
A key process in additive manufacturing is converting a 3D model into a set of instructions that a ...
A study on the possibilities of adaptive slicing initial 3D model (given by the STL-file) is present...
In the context of additive manufacturing we present a novel technique for direct slicing of a dilate...
An adaptive slicing algorithm that can vary the layer thickness in relation to local geometry is pre...
In contrast to standard layer based additive manufacturing methodologies, multi-axis material deposi...
Additive manufacturing is becoming one of the key methods for reproducing repair sections in remanuf...
Additive manufacturing has the potential to provide novel solutions for fabricating complex structur...
Additive manufacturing (3D Printing) has become a promising manufacturing method as it can produce p...
AbstractOne of the major constraints of additive manufacturing processes is its relatively slower sp...
Fabricating fully dense and functional metallic components is one of the important challenges in Add...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...
In Additive Manufacturing (AM) processes, the layer-by-layer fabrication of complex geometries may ...
The additive manufacturing (AM) technologies allow producing components layer upon layer in a comple...
Our research aims to push the limits of 3D printing towards the structural design and optimization. ...