The improvement of machinability during laser-assisted milling of Ti-6Al-4V alloy was investigated. The effects of laser processing and milling parameters on cutting forces and tool wear have been examined. It is found that local heating and softening of the workpiece by the laser beam in front of the cutting tool significantly reduced the cutting forces, especially the force in the feed direction during up-cut milling. Laser power, tool-beam distance, depth of cut and cutting speed are the parameters influencing the change of feed force during laser-assisted milling. Analysis of the workpiece temperature rise due to laser beam heating shows that the feed force is strongly dependent on the workpiece temperature in front of the cutting zone;...
Beta titanium alloys are increasingly attractive because of their superior combination of properties...
In recent years, researchers have been investigating various technologies including laser-assisted m...
AbstractMachining advanced materials, e.g. titanium alloys, usually results in a short tool life. La...
The improvement of machinability during laser-assisted milling of Ti-6Al-4V alloy was investigated. ...
The current investigation evaluates laser assisted machining, which uses an external laser beam to h...
The current investigation evaluates laser assisted machining, which uses an external laser beam to h...
The Machining of titanium alloys is challenging because of their high strength, low thermal conducti...
Laser assisted machining has been a field of extensive research during the past decade as it is a pr...
The Fraunhofer IPT has developed and realized a novel approach for laser-assisted milling of difficu...
Titanium alloys are well known for their excellent strength to weight ratio and corrosion resistance...
When milling or cutting hard materials, extensive tool wear is a common problem. One strategy for in...
Laser-assisted machining (LAM) is a promising technique to improve the machinability of various diff...
Turning of commercially pure (CP) titanium was carried out with the assistance of a laser beam. The ...
Metal cutting is a process that uses tools to create new surfaces by imparting intense shear stresse...
International audienceLaser-assisted machining combines several experimental parameters such as cutt...
Beta titanium alloys are increasingly attractive because of their superior combination of properties...
In recent years, researchers have been investigating various technologies including laser-assisted m...
AbstractMachining advanced materials, e.g. titanium alloys, usually results in a short tool life. La...
The improvement of machinability during laser-assisted milling of Ti-6Al-4V alloy was investigated. ...
The current investigation evaluates laser assisted machining, which uses an external laser beam to h...
The current investigation evaluates laser assisted machining, which uses an external laser beam to h...
The Machining of titanium alloys is challenging because of their high strength, low thermal conducti...
Laser assisted machining has been a field of extensive research during the past decade as it is a pr...
The Fraunhofer IPT has developed and realized a novel approach for laser-assisted milling of difficu...
Titanium alloys are well known for their excellent strength to weight ratio and corrosion resistance...
When milling or cutting hard materials, extensive tool wear is a common problem. One strategy for in...
Laser-assisted machining (LAM) is a promising technique to improve the machinability of various diff...
Turning of commercially pure (CP) titanium was carried out with the assistance of a laser beam. The ...
Metal cutting is a process that uses tools to create new surfaces by imparting intense shear stresse...
International audienceLaser-assisted machining combines several experimental parameters such as cutt...
Beta titanium alloys are increasingly attractive because of their superior combination of properties...
In recent years, researchers have been investigating various technologies including laser-assisted m...
AbstractMachining advanced materials, e.g. titanium alloys, usually results in a short tool life. La...