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|  | | Marking high temperature clear ceramic using a 10W laser. |
| | |  | | 0.025" thick ceramic, cut with a Synrad 200 watt laser, at 15 ipm. |
| | |  | | Laser cutting of this plastic mesh resulted in clean, sealed edges. |
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| |  | | Using a 240W Synrad CO2 laser we were able to cut this particle board at a speed of 150 inches per minute. |
| | |  | | This paperboard cutting application was processed using both 100W and 240W sealed CO2 lasers. Although the paperboard is 0.25" thick, the beam was focused by a lens proving a 0.004" spot size and a 0.07" depth of focus. |
| | |  | | Cut with 20 watts at 4"/minute. |
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| |  | | Cutting 0.04" aluminum oxide paper with 125 watts at 125"/ minute. |
| | |  | | This 0.08" sq. (~2mm. sq.), 26-character code was marked with a 10-watt Synrad laser and FH "Index" Marking Head at 19" per second. |
| | |  | | 250 & 100 micron hole sizes drilled with a Synrad 48-2 CO2 laser with 20 watts of power. |
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| |  | | Marked with Synrad's FH "Index" marking head and a 10-watt laser at 45" per second. |
| | |  | | Cut conditions were 23W, 1.8"/s, 200mm lens |
| | |  | | Contrasting marks were created on a lacquered aluminum cap. |
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| |  | | Readable codes can be made on tinted glass using a 10W laser. |
| | |  | | An intricate design marked on glass using a 25W Synrad CO2 laser. |
| | |  | | 1"-diameter metal tube, marked with a Synrad 100-watt sealed CO2 laser and FH-Series Index" Marking Head at 2" per second. |
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| |  | | WinMark Pro's Spot Marking Style was used to create this 0.35"sq 2D code on CRT glass. The mark had a cycle time of 2.6 seconds. |
| | |  | | 0.0011" stainless steel foil was welded to a 0.01" base with an Evolution 125W laser. |
| | |  | | Side by side 0.03" weld beads, on 0.02" thick 316 stainless steel sheet, created using a Synrad 240W laser. |
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