Laser Research Optics New Optics Cleaning Kit Improves Laser Cutting, Engraving, and Marking Performance

Share Article

Developed by an optics manufacturer, this Advanced Optical Cleaning Kit is ideally suited for cleaning spatter and blowback from CO2 optics in the field to prevent damage to coatings and extend lens life.

This kit features all of the items necessary for safely handling and cleaning optics on site by a user.

Kit includes 24 surgical-grade finger cots, 24 lens mats, distilled water, polishing compound, reagent-grade isopropyl alcohol, reagent-grade acetone, and an air bulb for dust removal.

Capable of cleaning all types of precision optics, this kit features all of the items necessary for safely handling and cleaning optics on site by a user.

Laser Research Optics has introduced an optical cleaning kit that is ideally suited for helping to optimize the performance of all popular low power cutting, engraving, and marking lasers.

The LRO Advanced Optical Cleaning Kit is ideally suited for cleaning spatter and blowback from CO2 optics in the field to prevent damage to coatings and extend lens life. Developed by an optics manufacturer to help improve laser cutting, engraving, and marking performance, this kit features all of the items necessary for safely handling and cleaning optics on site by a user.

Capable of cleaning all types of precision optics, the LRO Advanced Optical Cleaning Kit includes 24 surgical-grade finger cots, 24 lens mats, distilled water, polishing compound, reagent-grade isopropyl alcohol, reagent-grade acetone, and an air bulb for dust removal, plus step-by-step instructions.

The LRO Advanced Optical Cleaning Kit sells for $39.95 (list) and is also available for private labeling.

For more information contact:

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

Share article on social media or email:

View article via:

Pdf Print

Contact Author

Scott Rouillard
Visit website

Media

Laser Research Optics