Fiber Lasers in Material Processing
By A Mystery Man Writer
Description
The economic aspects of laser usage in manufacturing that form important criteria in the choice of a suitable laser system for thick-section metal cutting include: high processing speeds, high processing depths, high cut edge quality, and high wall-pug efficiency of the laser system. Consequently, the performance of the high brightness ytterbium fiber laser system in thick-section metal cutting is evaluated based on the maximum achievable cutting speeds, maximum cutting depths possible, and cut edge quality attainable. The maximum processing speeds, maximum processing depths, and resulting cut edge quality are governed by a number of parameters related to the laser system, workpiece specification, and the cutting process. The effects of the processing parameters in the cutting of thick-section stainless steel and mild steel and medium-section aluminium have been reported; optimization of the processing parameters for enhancement of the cut edge quality has been discussed.
Laser material processing, explained by RP; introduction, applications, laser processes, ablation, drilling, cutting, welding, marking, hardening, material processing systems, laser sources, beam delivery, positioning, process monitoring, laser hazards
Fibre Lasers - Working Principles, Applications & More
Industrial Applications of Fiber Lasers
Computational Dynamics of Anti-Corrosion Performance of Laser Alloyed Metallic Materials
Best Laser Engraver for Wood: The Complete Guide - Dekcel
Laser Material Processing Interaction - Modification
Carbon Fiber - Laser Cutting and Marking Carbon Fiber
Can You Laser Cut Copper and Other Reflective Metals?
Lasers for material processing, explained by RP; industrial lasers, ultrafast, cutting, drilling, marking, welding, soldering, hardening, cleaning
Photonics, Free Full-Text
Fiber Lasers in Material Processing
from
per adult (price varies by group size)