Patent application number | Description | Published |
20080315162 | High adhesion acrylate coating for a photochromic ophthalmic lens - A method and coating used to prepare a photochromically-enabled bifocal ophthalmic lens. The coating is a high adhesive strength acrylate-based coating that contains a small quantity of a polycarbonate-based TPU. The coating is applied to produce an intermediate imbibable bifocal surface. A photochromic solution is subsequently imbibed by contact with the bifocal surface. | 12-25-2008 |
20080317950 | Method for adding a thermoset overmold layer to a lens within a mold - A method and coating used to prepare a photochromically-enabled bifocal ophthalmic lens. The method and equipment includes injection molding a single vision lens, for example, from polycarbonate. The clamp opens vertically and the top insert is exchanged for a bifocal mold having a base curve similar to the single vision lens. The thermoset coating includes compounds from several acrylate classes, and is applied to the single vision lens. The coating may include a photochromic dye. The coating is also formulated to receive a photochromic solution through an imbibition process. | 12-25-2008 |
20090315199 | PHOTOCHROMIC COATING EXHIBITING IMPROVED PERFORMANCE - A photochromic coating exhibiting improved performance and photochromic lenses made using the coating. The coating has excellent photochromic darkening and fatigue properties. The coating formulation is made from a monomer blend having at least two different types of monomers. A metal salt catalyst is used along with an initiator. An antioxidant is used in combination with a hindered amine light stabilizer. The coating is suitable for use in an in-mold coating process. | 12-24-2009 |
20090318619 | INITIATORS FOR OPTICAL COATING FORMULATIONS WITH REDUCED YELLOWNESS - The invention relates to a acrylated-based optical coating composition containing an organic peroxide initiator which presents a low yellowness level. The initiator has a range of free radical energy that is below a predetermined level. The cure process is controlled by the use a catalyst and a low energy initiator to avoid deleterious reactions that can increase yellowness. The composition is well suited to be applied to a lens and cured in the mold to form a coating with reduced yellowness having high adhesion and abrasion-resistant properties. A dye can be introduced into the composition to form a tinted lens. | 12-24-2009 |
20100189890 | HIGH ADHESION ACRYLATE COATINGS F0R A PHOTOCHROMIC OPHTHALMIC LENS - A method and coating used to prepare a photochromically-enabled bifocal ophthalmic lens. The coating is a high adhesive strength acrylate-based coating that contains a small quantity of a polycarbonate-based TPU. The coating is applied to produce an intermediate imbibable bifocal surface. A photochromic solution is subsequently imbibed by contact with the bifocal surface. | 07-29-2010 |
20100201010 | HIGH ADHESION ACRYLATE COATINGS FOR A PHOTOCHROMIC OPHTHALMIC LENS - A method used to prepare a photochromically-enabled bifocal ophthalmic lens. A lens substrate is injection molded and then a coating is applied to the substrate to form a bifocal surface. The coating is a high adhesive strength acrylate-based coating that contains a small quantity of a polycarbonate-based TPU. The thermoset coating produces an intermediate imbibable bifocal surface. A photochromic solution is subsequently imbibed by contact with the bifocal surface. The TPU acts as an adhesion enhancer so that the coating to substrate integrity is maintained following the imbibing step. | 08-12-2010 |
20110115108 | PHOTOCHROMIC COATING EXHIBITING IMPROVED PERFORMANCE AND REDUCED YELLOWNESS - An acrylate-based optical coating composition containing a blend of monomers, a metal salt, a Hindered Amine Light Stabilizer (HALS), an antioxidant (AO), an initiator and a photochromic dye. The initiator has a range of free radical energy that is below a predetermined level. The cure process is controlled by the catalyst and initiator in combination with the HALS and AO to avoid deleterious reactions that can increase yellowness. The composition is well suited to be applied to a lens and cured in the mold to form a coating with reduced yellowness having high adhesion and abrasion-resistant properties. A photochromic segmented bifocal lens is produced with low photochromic fatigue and favorable % T values. | 05-19-2011 |