Multi-axis slicing for solid freeform fabrication manufacturing processes can yield nonuniform thickness layers or three-dimensional (3D) layers. The traditional parallel layer construction approach to building such layers leads to the so-called staircase effect, which requires machining or other postprocessing to form the desired shape. This paper presents a direct 3D layer deposition approach that uses an empirical model to predict the layer thickness. The toolpath between layers is not parallel; instead, it follows the final shape of the designed geometry and the distance between the toolpath in the adjacent layers varies at different locations. Directly depositing 3D layers not only eliminates the staircase effect but also improves manu...
While additive manufacturing and 3D printing achieved notoriety for their abilities to manufacture ...
Current Fused Deposition Modeling (FDM) technologies deposit material as flat layers. The result is ...
Additive Manufacturing is of great interest to various industries looking to create a part directly...
Multi-axis slicing for solid freeform fabrication (SFF) manufacturing process can yield non-uniform ...
Multi-axis slicing for solid freeform fabrication (SFF) manufacturing processes can yield non-unifor...
Layered Manufacturing (LM) techniques build a part by adding thin layers of material. In many LM pr...
Over the last two decades, additive manufacturing (AM) or 3D printing technologies have become perva...
Process planning of additive manufacturing of metals is a research interest because of the applicati...
Fabricating fully dense and functional metallic components is one of the important challenges in Add...
Rapid prototyping is a form of additive fabrication which is used to make three dimensional objects ...
A multiaxis adaptive slicing algorithm for multiaxis layered manufacturing, which can generate optim...
AbstractOne of the major constraints of additive manufacturing processes is its relatively slower sp...
This thesis addresses the issue of rapidly and automatically fabricating functional metal parts dire...
This paper describes a new approach for rapid prototyping based on volumetric skeletonization. Cont...
A program for the three-dimensional (3D) simulation of layer depositionhas been developed. It is bas...
While additive manufacturing and 3D printing achieved notoriety for their abilities to manufacture ...
Current Fused Deposition Modeling (FDM) technologies deposit material as flat layers. The result is ...
Additive Manufacturing is of great interest to various industries looking to create a part directly...
Multi-axis slicing for solid freeform fabrication (SFF) manufacturing process can yield non-uniform ...
Multi-axis slicing for solid freeform fabrication (SFF) manufacturing processes can yield non-unifor...
Layered Manufacturing (LM) techniques build a part by adding thin layers of material. In many LM pr...
Over the last two decades, additive manufacturing (AM) or 3D printing technologies have become perva...
Process planning of additive manufacturing of metals is a research interest because of the applicati...
Fabricating fully dense and functional metallic components is one of the important challenges in Add...
Rapid prototyping is a form of additive fabrication which is used to make three dimensional objects ...
A multiaxis adaptive slicing algorithm for multiaxis layered manufacturing, which can generate optim...
AbstractOne of the major constraints of additive manufacturing processes is its relatively slower sp...
This thesis addresses the issue of rapidly and automatically fabricating functional metal parts dire...
This paper describes a new approach for rapid prototyping based on volumetric skeletonization. Cont...
A program for the three-dimensional (3D) simulation of layer depositionhas been developed. It is bas...
While additive manufacturing and 3D printing achieved notoriety for their abilities to manufacture ...
Current Fused Deposition Modeling (FDM) technologies deposit material as flat layers. The result is ...
Additive Manufacturing is of great interest to various industries looking to create a part directly...