Hybrid manufacturing machine tools have great potential to revolutionize manufacturing by combining both additive manufacturing (AM) and subtractive manufacturing (SM) processes on the same machine tool. A prominent issue that can occur when going from AM to SM is that the SM process toolpath does not account for geometric discrepancies caused by the previous AM step, which leads to increased production times and tool wear, particularly when wire-based directed energy deposition (DED) is used as the AM process. This work discusses a methodology for approximating a part’s surface topology using on-machine contact probing and formulating an optimized SM toolpath using the surface topology approximation. Three different geometric surface appro...
Manufacturing-oriented topology optimization has been extensively studied the past two decades, in p...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
Hybrid Manufacturing (HM) is oriented to combine the advantages of additive manufacturing, such as f...
In hybrid additive manufacturing (HAM), toolpaths affect the volume building and removing during th...
The objective of this research is to develop a method for an iterative hybrid manufacturing (HM) pro...
Purpose: The purpose of this paper is to communicate a method to perform simultaneous topology optim...
In a multi-axis hybrid manufacturing system, it is necessary to utilize a machining process to impro...
AbstractAdditive manufacturing (AM) is increasingly being pursued as a practical approach for compon...
The surface machining precision of parts is closely related to the contact performance between the m...
This paper presents a new approach to tool path generation for a hybrid additive-subtractive manufac...
Purpose - In additive manufacturing (AM) process, the physical properties of the products made by fr...
Prototypes and small series production of metal thin-walled components is a field for the use of a n...
Metal additive manufacturing is a major field of study and innovation. In almost every industry, a l...
Metal additive manufacturing is a major field of study and innovation. In aerospace industry a lot o...
In industrial practice, additive manufacturing (AM) processes are often followed by post-processing ...
Manufacturing-oriented topology optimization has been extensively studied the past two decades, in p...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
Hybrid Manufacturing (HM) is oriented to combine the advantages of additive manufacturing, such as f...
In hybrid additive manufacturing (HAM), toolpaths affect the volume building and removing during th...
The objective of this research is to develop a method for an iterative hybrid manufacturing (HM) pro...
Purpose: The purpose of this paper is to communicate a method to perform simultaneous topology optim...
In a multi-axis hybrid manufacturing system, it is necessary to utilize a machining process to impro...
AbstractAdditive manufacturing (AM) is increasingly being pursued as a practical approach for compon...
The surface machining precision of parts is closely related to the contact performance between the m...
This paper presents a new approach to tool path generation for a hybrid additive-subtractive manufac...
Purpose - In additive manufacturing (AM) process, the physical properties of the products made by fr...
Prototypes and small series production of metal thin-walled components is a field for the use of a n...
Metal additive manufacturing is a major field of study and innovation. In almost every industry, a l...
Metal additive manufacturing is a major field of study and innovation. In aerospace industry a lot o...
In industrial practice, additive manufacturing (AM) processes are often followed by post-processing ...
Manufacturing-oriented topology optimization has been extensively studied the past two decades, in p...
This paper gives an overview of the issues and opportunities for the application of topology optimi...
Hybrid Manufacturing (HM) is oriented to combine the advantages of additive manufacturing, such as f...