This paper summarizes the research and development of a Multi-Axis Planning System (MAPS) for hybrid laser metal deposition processes. The project goal is to enable the current direct metal deposition systems to fully control and utilize multi-axis capability to make complex parts. MAPS allows fully automated process planning for multi-axis layered manufacturing to control direct metal deposition machines for automated fabrication. Such a capability will lead to dramatic reductions in lead time and manufacturing costs for high-value, low-volume components with high performance material. The overall approach, slicing algorithm, machine simulation for planning validation, and the planning results will be presented
Purpose - This paper sets out to summarize the current research, development, and integration of a h...
With the integration of multiaxis layered manufacturing and material removal (machining) processes, ...
A hybrid manufacturing system integrated CNC machining and laser-aided layered deposition and achiev...
This paper summarizes the research and development of a Multi-Axis Planning System (MAPS) for hybri...
This paper presents a multi-axis hybrid Laser Aided Manufacturing Process (LAMP) to fabricate aerosp...
In a multi-axis metal hybrid layered manufacturing system, in which a laser material deposition and ...
A Laser Aided Manufacturing Process (LAMP) System is a multi-axis hybrid layered manufacturing syste...
With the integration of multi-axis layered manufacturing and material removal (machining) processes,...
This paper presents a Laser Additive Manufacturing Process Planning (LAMPP) being developed at the U...
The purpose of this paper is to introduce a strategy for fabricating complex structures via a hybri...
Even though the machining process has been integrated to the Multi-Axis Laser Aided Manufacturing Pr...
With the integration of multiaxis layered manufacturing and material removal (machining) processes, ...
This paper presents the research and development of a hybrid rapid manufacturing process being deve...
This paper outlines a process planning strategy for a multi-axis hybrid manufacturing process that i...
Reliable and economical fabrication of metallic parts with complicated geometries is of considerable...
Purpose - This paper sets out to summarize the current research, development, and integration of a h...
With the integration of multiaxis layered manufacturing and material removal (machining) processes, ...
A hybrid manufacturing system integrated CNC machining and laser-aided layered deposition and achiev...
This paper summarizes the research and development of a Multi-Axis Planning System (MAPS) for hybri...
This paper presents a multi-axis hybrid Laser Aided Manufacturing Process (LAMP) to fabricate aerosp...
In a multi-axis metal hybrid layered manufacturing system, in which a laser material deposition and ...
A Laser Aided Manufacturing Process (LAMP) System is a multi-axis hybrid layered manufacturing syste...
With the integration of multi-axis layered manufacturing and material removal (machining) processes,...
This paper presents a Laser Additive Manufacturing Process Planning (LAMPP) being developed at the U...
The purpose of this paper is to introduce a strategy for fabricating complex structures via a hybri...
Even though the machining process has been integrated to the Multi-Axis Laser Aided Manufacturing Pr...
With the integration of multiaxis layered manufacturing and material removal (machining) processes, ...
This paper presents the research and development of a hybrid rapid manufacturing process being deve...
This paper outlines a process planning strategy for a multi-axis hybrid manufacturing process that i...
Reliable and economical fabrication of metallic parts with complicated geometries is of considerable...
Purpose - This paper sets out to summarize the current research, development, and integration of a h...
With the integration of multiaxis layered manufacturing and material removal (machining) processes, ...
A hybrid manufacturing system integrated CNC machining and laser-aided layered deposition and achiev...