AbstractIn laser droplet generation from a metal wire a droplet is generated by laser heating of the wire-end. In the paper a problem of laser droplet sequence generation, which results in unsuccessful droplet detachment is considered. To solve this problem, a control system and strategy for laser droplet sequence generation are proposed. The control bases on in-process monitoring of the initial position and temperature of the wire-end are presented. The results show that by ensuring proper initial wire-end position and stationary wire-end temperature which can be influenced by laser pulse parameters, a reliable generation of a droplet sequence can be achieved
This research addresses the development of a laser metal deposition process with wire feeding and me...
AbstractLaser cladding, also known as direct metal deposition, is an additive manufacturing techniqu...
In this work, the control of the droplet generation by a focused infrared (IR) laser with a waveleng...
AbstractIn laser droplet generation from a metal wire a droplet is generated by laser heating of the...
In the paper a novel system for drop-on-demand (DoD) generation from a metal wire is presented, whos...
AbstractIn laser generation of droplets from a metal wire, it has been observed experimentally that ...
The subject of Additive Manufacturing includes numerous techniques, some of which have reached very ...
The addition of wire is an option during laser welding, laser cladding or laser additive manufacturi...
The thesis gives a number of solutions towards full automation of the promising manufacturing techno...
This paper presents a high-speed thermal imaging method using a visible light camera, with applicati...
A method for controlling robotized laser metal wire deposition on-line by electrical resistance mete...
This research addresses the development of a laser metal deposition process with wire feeding and me...
Metal wire deposition by means of robotized laser welding offers great saving potentials, i.e. reduc...
The subject of this study is the vertical mass-spring-like oscillation of a pendant droplet and its ...
Robotized laser metal-wire deposition is a fairly new technique being developed at University West i...
This research addresses the development of a laser metal deposition process with wire feeding and me...
AbstractLaser cladding, also known as direct metal deposition, is an additive manufacturing techniqu...
In this work, the control of the droplet generation by a focused infrared (IR) laser with a waveleng...
AbstractIn laser droplet generation from a metal wire a droplet is generated by laser heating of the...
In the paper a novel system for drop-on-demand (DoD) generation from a metal wire is presented, whos...
AbstractIn laser generation of droplets from a metal wire, it has been observed experimentally that ...
The subject of Additive Manufacturing includes numerous techniques, some of which have reached very ...
The addition of wire is an option during laser welding, laser cladding or laser additive manufacturi...
The thesis gives a number of solutions towards full automation of the promising manufacturing techno...
This paper presents a high-speed thermal imaging method using a visible light camera, with applicati...
A method for controlling robotized laser metal wire deposition on-line by electrical resistance mete...
This research addresses the development of a laser metal deposition process with wire feeding and me...
Metal wire deposition by means of robotized laser welding offers great saving potentials, i.e. reduc...
The subject of this study is the vertical mass-spring-like oscillation of a pendant droplet and its ...
Robotized laser metal-wire deposition is a fairly new technique being developed at University West i...
This research addresses the development of a laser metal deposition process with wire feeding and me...
AbstractLaser cladding, also known as direct metal deposition, is an additive manufacturing techniqu...
In this work, the control of the droplet generation by a focused infrared (IR) laser with a waveleng...