A Simple Optical Coupling Method for Water-Jet Guided Laser Machining System

Meng Li; Wen Wu Zhang; Xi Ping Zhang; Tian Run Zhang

doi:10.4028/www.scientific.net/AMM.541-542.774

Paper Titles

Experimental Investigation and Numerical Simulation for High Temperature Air Source Heat Pump with New Mixed-Refrigerant
p.752

Simulation Study on the Combined Harvester with Four Tracked Feet Passing through Ditch Based on RecurDyn
p.756

Simulation Investigation about Combustion and Emission Characteristics of n-Butanol/Diesel Fuel Mixture on Diesel Engine
p.763

The Design and Research of Automatic Charging Parking Space
p.769

A Simple Optical Coupling Method for Water-Jet Guided Laser Machining System
p.774

Analytical Method for Obtaining Cut Geometry of Helical Toroidal Cutter during Semi-Finish in 5-Axis Milling
p.780

Machining Evaluation of High-Speed Milling for Thin-Wall Machining of Al7075-T651
p.785

Effect of Changing the Position of Tool Point on the Moving Platform on the Kinematics of a 3RRR Planar Parallel Manipulator
p.792

Analyzing the Vibration of Warp Yarns in Lengthwise and Crosswise
p.798

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 541-542A Simple Optical Coupling Method for Water-Jet...

A Simple Optical Coupling Method for Water-Jet Guided Laser Machining System

Abstract:

In this paper a simple optical coupling method for water-jet guided laser machining system is introduced and its characteristics are studied. By the introduced method the output spot pattern behind the water-jet was observed instead of the laser focus. In order to acquire the pattern a piece of glass was used to block the water-jet but let the laser through, and a light screen was placed behind the glass in a certain distance to display the pattern image. Since the image scale could be adjusted by changing the distance between the glass and the light screen, the CCD magnifying system was no longer needed. It is found that the pattern varied while the coupling condition changed. Only in small chance the pattern was a tiny spot but more commonly it was in a ring-like shape which could be easily recognized. So such ring-like patterns could be signals for optical coupling guidance. Furthermore a series of study to analyze the correlation between the pattern shape and coupling parameters was carried out by simulation with the help of Zemax.