With the integration of multiaxis layered manufacturing and material removal (machining) processes, a hybrid system has more capability and flexibility to build complicated geometry with a single setup. Process planning to integrate the two different processes is a key issue. In this paper, an algorithm of adaptive slicing for a five-axis Laser Aided Manufacturing Process (LAMP) is summarized that can generate uniform and non-uniform thickness slices. A method to build a non-uniform (thickness) layer that utilizes two processes is presented, and an overall algorithm for integration is described. The newly developed algorithm implemented in the process planning helps the hybrid system build parts more efficiently
This paper presents a Laser Additive Manufacturing Process Planning (LAMPP) being developed at the U...
A multiaxis adaptive slicing algorithm for multiaxis layered manufacturing, which can generate optim...
A key process in additive manufacturing is converting a 3D model into a set of instructions that a ...
With the integration of multiaxis layered manufacturing and material removal (machining) processes, ...
With the integration of multi-axis layered manufacturing and material removal (machining) processes,...
An adaptive slicing algorithm which can generate optimal slices to achieve deposition without suppor...
A Laser Aided Manufacturing Process (LAMP) System is a multi-axis hybrid layered manufacturing syste...
Even though the machining process has been integrated to the Multi-Axis Laser Aided Manufacturing Pr...
In a multi-axis metal hybrid layered manufacturing system, in which a laser material deposition and ...
Multi-axis Laser Aided Manufacturing Process (LAMP) is an additive manufacturing process similar to ...
A hybrid manufacturing system integrates computer numerical controlled (CNC) machining process and l...
Multi-axis Laser Aided Manufacturing Process (LAMP) is an additive manufacturing process similar to ...
This paper presents a multi-axis hybrid Laser Aided Manufacturing Process (LAMP) to fabricate aerosp...
This paper summarizes the research and development of a Multi-Axis Planning System (MAPS) for hybri...
Some freeform surfaces cannot be machined by traditional CNC machining because of the inaccessibilit...
This paper presents a Laser Additive Manufacturing Process Planning (LAMPP) being developed at the U...
A multiaxis adaptive slicing algorithm for multiaxis layered manufacturing, which can generate optim...
A key process in additive manufacturing is converting a 3D model into a set of instructions that a ...
With the integration of multiaxis layered manufacturing and material removal (machining) processes, ...
With the integration of multi-axis layered manufacturing and material removal (machining) processes,...
An adaptive slicing algorithm which can generate optimal slices to achieve deposition without suppor...
A Laser Aided Manufacturing Process (LAMP) System is a multi-axis hybrid layered manufacturing syste...
Even though the machining process has been integrated to the Multi-Axis Laser Aided Manufacturing Pr...
In a multi-axis metal hybrid layered manufacturing system, in which a laser material deposition and ...
Multi-axis Laser Aided Manufacturing Process (LAMP) is an additive manufacturing process similar to ...
A hybrid manufacturing system integrates computer numerical controlled (CNC) machining process and l...
Multi-axis Laser Aided Manufacturing Process (LAMP) is an additive manufacturing process similar to ...
This paper presents a multi-axis hybrid Laser Aided Manufacturing Process (LAMP) to fabricate aerosp...
This paper summarizes the research and development of a Multi-Axis Planning System (MAPS) for hybri...
Some freeform surfaces cannot be machined by traditional CNC machining because of the inaccessibilit...
This paper presents a Laser Additive Manufacturing Process Planning (LAMPP) being developed at the U...
A multiaxis adaptive slicing algorithm for multiaxis layered manufacturing, which can generate optim...
A key process in additive manufacturing is converting a 3D model into a set of instructions that a ...