11.00-11.30
Process control and beyond: the IDM in-process depth meter in industrial use
Thibault Bautze, Precitec
barrel, receiver, magazines, grip or stock, and even single springs can be marked. Large and obvious markings allow police forces to check quickly and see if the SALW came into the country via a legal channel. Small and hidden markings – made on inner parts, for instance, in places that are hard to access – enable specialists to examine the history of the SALW. Ammunition can be marked either on the cartridge case or on the projectile itself for traceability, a code that can trace an individual marksman (in most cases a police officer).
www.troteclaser.com
10.30-11.00
How machine vision reduces complexity and costs of industrial laser processing systems
Wolfgang Lehmann, Raylase
Since the first appearance of in-process depth meter (IDM) technology in 2008, numerous applications have been addressed under industrial conditions. A huge benefit of this coaxial distance measurement device is the ability to acquire 3D images simultaneously from the pre-, in- and post-process of laser welding applications, even on 3D scanners. Tis allows for omnidirectional welding processes with no limitations on the workpiece geometry. Low-power applications also benefit from IDM; laser ablation systems can visualise and control the ablation rate in real-time, which is crucial for expensive workpieces like polycrystalline diamond. Other applications include additive manufacturing and laser cutting.
www.precitec.de
11.30-12.00
Lasers in action Lincoln Connor, Fianium
12.00-12.30
Real time motion control of scanners
Peter Rauscher, Fraunhofer IWS Dresden 12.30-13.00
Classic laser processing systems demand complex peripheral equipment for handling, precise positioning, and quality inspection of workpieces. What if the laser processing system could automatically adapt to the type and position of a workpiece? What if the system itself could closely monitor the laser process and inspect the quality of the result? Tis presentation shows how Raylase has combined modern machine vision and laser technology to increase the precision and reduce the cost of laser-based material processing systems.
www.raylase.de
www.lasersystemseurope.com | @lasersystemsmag
High-volume production of reliable femtosecond lasers for 24/7 operation
Dr Klaus Hartinger, Spectra-Physics
Industrial production lines in the micro- electronics, semiconductor or automotive sectors generally require 24/7 operation. With an ever increasing portion of processing steps being carried out by lasers in general, and ultrafast lasers in particular, reliability and available uptime of these lasers have improved correspondingly. As a consequence, operations for manufacturing ultrashort pulsed lasers have also developed.
SOLUTIONS FOR
MACHINING MACHINING
MACHINING MACHINING
LASER MICRO-
LASER MICRO-
LASER MICRO-
LASER MICRO-
SOLUTIONS FOR
SOLUTIONS FOR
SOLUTIONS FOR
Micro Drilling Cutting Scribing Micro Structuring Selective Ablation Cavity Formation
Micro Drilling Cutting Scribing Micro Structuring Selective Ablation Cavity Formation
Micro Drilling Cutting Scribing Micro Structuring Selective Ablation Cavity Formation
Micro Drilling Cutting Scribing Micro Structuring Selective Ablation Cavity Formation
WE TRANSFER CUTTING EDGE LASER TECHNOLOGY INTO HIGHLY EFFICIENT PROCESSING SYSTEMS
WE TRANSFER CUTTING EDGE LASER TECHNOLOGY INTO HIGHLY EFFICIENT PROCESSING SYSTEMS
WE TRANSFER CUTTING EDGE LASER TECHNOLOGY INTO HIGHLY EFFICIENT PROCESSING SYSTEMS
WE TRANSFER CUTTING EDGE LASER TECHNOLOGY INTO HIGHLY EFFICIENT PROCESSING SYSTEMS
INNOVATION FOR THE NEXT GENERATION INNOVATION FOR THE NEXT GENERATION
INNOVATION FOR THE NEXT GENERATION INNOVATION FOR THE NEXT GENERATION
LASYS 2016 4B60
LASYS 2016 4B60
InnoLas Solutions GmbH wInnoLas Solutions GmbH
InnoLas Solutions GmbH InnoLas Solutions GmbH
ww.innolas-solutions.c .com
www.innolas-solutions.com
w.innolas-solutionsom
w.innolas-solutions.com
LASYS 2016 4B60
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LASYS 2016 4B60
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