LASER PROCESSING SERVICES

Brand Owner (click to sort) Address Description
CLEARCUT LasX Industries, Inc. Ste. 170 4444 Centerville Road White Bear Lake MN 55127 Laser processing services, namely, product design, prototype development, market testing, and job preparation and quality management of laser machine tools;CLEAR CUT;
LASX LasX Industries, Inc. Ste. 170 4444 Centerville Road White Bear Lake MN 55127 Laser processing services, namely, laser cutting, scoring, perforating, and etching of medical, electronic, aerospace, automotive, and industrial components, namely, microfluidic circuits, gaskets, spacers, graphic overlays, abrasives, adhesives, foils, flexible circuits, solar panels, and other components; Laser cutting, etching, and abrading textiles, namely, denim and other textile fabrics, Laser cutting and scoring of folded products, namely, cartons, packaging boxes, containers and trays; Digital laser finishing of printed materials, namely, paper finishing; Laser cutting and specialty finishing, namely, scoring, cutting, perforating, marking, and scribing printed materials, namely, direct mail, greeting cards, invitations and other promotional materials;LAS X; LASIK;
LP LASER PRECISE, INC. LASER PRECISE, INCORPORATED 1623 Third Creek Road KNOXVILLE TN 37921 laser processing services; namely, laser cutting of metal, inorganic and organic substances and materials, laser etching, laser welding, and laser heat treating services;LASER and INC.;
STENCILSHARP LasX Industries, Inc. Ste. 170 4444 Centerville Road White Bear Lake MN 55127 Laser processing services, namely, laser cutting and etching for others;STENCIL SHARP;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. Disclosed is a laser processing apparatus and method for enhancing processing efficiency of an object by means of a polygon mirror. The laser processing apparatus includes a laser generator outputting a laser beam with a predetermined diameter, a polygon mirror rotating on an axis with plural reflection planes to reflect the laser beam incident on the reflection planes from the laser generator, in which the number of the reflection planes is set in order that the laser beam can cover at least two reflection planes of the polygon mirror, and a lens condensing and irradiating the laser beam reflected from the polygon mirror. According to the present invention, it is able to improve the processing efficiency and product yield of an object by dividing the laser beam into the plurality to be incident on the reflection planes of the polygon mirror and repeatedly processing the object in low energy by means of the divided laser beam.