Edge-rounding and removing burrs of glass parts with laser radiation

The laser polishing process developed at the Fraunhofer Institute for Laser Technology ILT has been a well known technique in metal and glass processing for several years now. It can be used not only for polishing surfaces, but also for rounding edges and for removing burrs e.g. split lines on parts formed by injection or compression molding. Rounding edges increases the stability of glass. Excess material protruding from the surface of injection or compression-molded parts can be removed so cleanly that it is no longer visible. At the 2012 glasstec international trade fair, which will take place in Düsseldorf from October 23 to 26, experts from Fraunhofer ILT will be explaining the process and displaying samples of glass parts whose edges were rounded with CO2 laser radiation.

The stability of glass parts can be significantly increased by rounding their edges. Laser polishing is an economical and fast technique for edge-rounding of glass parts. When, as in laser polishing, a glass edge is processed with a CO2 laser, the material at the outermost surface layer heats up due to the surface near absorption of 80 percent of the laser radiation. A temperature just below its evaporation temperature is reached in the outher surface. This greatly decreases the viscosity of the material, while surface tension reduces the surface roughness. In contrast to conventional polishing techniques, no material is removed from the surface with laser polishing. In addition, the surface of the edge is polished. Subsequently, the edge surface and adjacent areas exhibit a very low level of micro-roughness. The result is not only greater stability in the edge region, but also a noticeable increase in the gloss level of the processed area. “You can set the degree to which!
  the edge is to be rounded and polished by means of the process temperature in the surface near layer,” explains Annika Richmann, project manager at Fraunhofer ILT. “Although parts are usually processed using a beam diameter of several millimeters, very local processing is also possible. Laser polishing can be used on virtually all types of glass, with greater process speeds obtainable for low-melting glasses.”

Bid farewell to tangible and visible burrs


The technique is also suited to removing burrs on glass and plastic injection and compression-molded parts. As in laser polishing, material is redistributed rather than removed; burrs are diminished to the point where they can no longer be seen or felt. This technique also greatly reduces the micro-roughness of the processed areas and heightens gloss.

Polishing freeform optics

Research at Fraunhofer ILT is presently focused on applying laser polishing techniques to freeform optics, where conventional polishing techniques are very slow. Lasers shorten processing times by a factor of up to 100, depending on the surface geometry to be polished. For many applications – including optical systems for illumination optics – the roughness values now obtainable are more than adequate. The challenge for the experts charged with further developing the laser polishing technique now consists in also attaining adequate roughness for imaging optics by means of further increasing shape accuracy and reducing waviness.


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Visit us:

glasstec 2012
October 23 - 26, 2012, Düsseldorf
Fraunhofer Joint Booth Hall 15/E25

EuroBlech 2012
October 23 - 27, 2012, Hannover
Fraunhofer Joint Booth Hall 11/B06

Compamed/Media 2012
November 14 -17, 2012, Frankfurt
IVAM Joint Booth Hall 8a/F34

EuroMold 2012
November 27 - 30, 2012, Frankfurt
Fraunhofer Joint Booth Hall 11 D70/D66

ICTM 2013 - International Conference on Turbomachinery Manufacturing
Leading Edge Technologies in Aachen
February 20 - 21, 2013, Aachen

http://www.ilt.fraunhofer.de

 

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