Laser Research Optics CO2 Engraving Optics Offered Stand-Alone or Mounted


PROVIDENCE, RI--(Marketwired - Apr 9, 2013) - Laser Research Optics supplies a full line of replacement CO2 laser optics that fit most lasers used for engraving acrylic plaques, trophies, and other recognition products and they are offered by stand-alone or mounted.

Laser Research CO2 Engraving Optics are optimized for 10.6 microns, where depth of field is critical, and meet OEM and ISO-10110 specifications, making them suitable field-replacements for virtually all engraving lasers. Supplied stand-alone or mounted, these lenses and mirrors feature < 0.2% total absorption values and are available from stock for overnight delivery.

Ideal for Camtech®, Emission Technologies®, Epilog®, Ferba®, GCC Laser Pro Engravers®, Gravograph®, Jamieson Lasers®, Kern®, LST Lasers®, Pinnacle®, Synrad®, Trotec®, Vytek®, and Universal® lasers, Laser Research CO2 Engraving Lenses are offered in 1/2" to 1-1/2" dia. sizes with focal lengths from 1" to 25", in 1/2" increments, and the engraving mirrors are made from silicon and copper in 1/2" to 3" dia. sizes 2 mm to 10 mm thick.

Laser Research CO2 Engraving Optics' pricing is available at (888) 239-5545 or www.laserresearch.net and delivery is from stock with overnight service.

About Laser Research Optics

Laser Research Optics is a division of Meller Optics, Inc., a leading manufacturer of hard crystalline materials such as ruby and sapphire since 1921. The company maintains one of the largest inventories of stock CO2 optics in the country. Available for immediate delivery, the optics are ideal for direct field replacement in low power CO2 lasers currently being used for laser marking, laser engraving, laser cutting, and low power scribing and welding.

Contact Information:

For more information contact:

Laser Research Optics
A Division of Meller Optics, Inc.
Scott Rouillard
Sales Mgr.
120 Corliss St.
Providence, RI 02904
(888) 239-5545
FAX (401) 331-4004
e-mail: scott@laserresearch.net
www.laserresearch.net

Laser Research CO2 Engraving Optics