Add to ORKGLaser-assisted machining (LAM) is a hybrid cutting process in which a laser beam is used to heat and soften the workpiece locally in front of the cutting tool. The temperature rise at the shear zone reduces the yield strength and work hardening of the workpiece, which makes the plastic deformation of difficult-to-machine materials (engineering ceramics, hard metals, and metal matrix composites) easier during machining. Its process benefits include a reduction in the culling forces/specific cutting energy, longer tool life, better surface integrity, and high productivity. This chapter summarizes the up-to-date progress of LAM of ceramics, metals, and metal matrix composites. It covers the analysis of temperature distribution around the cutti...
Laser-assisted machining (LAM) is becoming recognised as a process that can enhance the machinabilit...
The chapter presents the results of experimental investigation of the machinability of difficult to ...
Hybrid machining processes using additional energy sources such as laser assisted machining (LAM) ha...
Laser assisted machining (LAM) takes the advantages of local heating and softening of workpiece by l...
Laser assisted machining (LAM) takes the advantages of local heating and softening of workpiece by l...
A higher strength and heat resistance are increasingly demanded from the advanced engineering materi...
AbstractHigh strength alloys such as nickel and titanium and advanced engineering materials such as ...
Laser-assisted machining operations, based on the use of laser beam energy enhancing the cutting pro...
This paper reviews the recent research progress on laser assisted machining technology. On the exper...
Laser-assisted machining (LAM) is a promising technique to improve the machinability of various diff...
The cost of cutting hard-to-machine materials by conventional mechanical machining processes is high...
Laser Assisted Machining (LAM) improves the machinability of materials by locally heating the workpi...
Metal matrix composites (MMCs) have many industry applications in different sectors, e.g.: automobil...
AbstractLaser Assisted Milling (LAM) is a hybrid machining technology which combines conventional mi...
AbstractThis paper deals with the machining of alumina ceramics by employing high intense laser sour...
Laser-assisted machining (LAM) is becoming recognised as a process that can enhance the machinabilit...
The chapter presents the results of experimental investigation of the machinability of difficult to ...
Hybrid machining processes using additional energy sources such as laser assisted machining (LAM) ha...
Laser assisted machining (LAM) takes the advantages of local heating and softening of workpiece by l...
Laser assisted machining (LAM) takes the advantages of local heating and softening of workpiece by l...
A higher strength and heat resistance are increasingly demanded from the advanced engineering materi...
AbstractHigh strength alloys such as nickel and titanium and advanced engineering materials such as ...
Laser-assisted machining operations, based on the use of laser beam energy enhancing the cutting pro...
This paper reviews the recent research progress on laser assisted machining technology. On the exper...
Laser-assisted machining (LAM) is a promising technique to improve the machinability of various diff...
The cost of cutting hard-to-machine materials by conventional mechanical machining processes is high...
Laser Assisted Machining (LAM) improves the machinability of materials by locally heating the workpi...
Metal matrix composites (MMCs) have many industry applications in different sectors, e.g.: automobil...
AbstractLaser Assisted Milling (LAM) is a hybrid machining technology which combines conventional mi...
AbstractThis paper deals with the machining of alumina ceramics by employing high intense laser sour...
Laser-assisted machining (LAM) is becoming recognised as a process that can enhance the machinabilit...
The chapter presents the results of experimental investigation of the machinability of difficult to ...
Hybrid machining processes using additional energy sources such as laser assisted machining (LAM) ha...