Jay Scott
Jay Scott Daulton, Gilroy, CA US
Patent application number | Description | Published |
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20080257389 | Devices, assemblies, and methods for extracting extractable materials from polymerized biomedical devices - A biomedical device carrier includes multiple recesses for holding a plurality of polymerized biomedical devices, such as polymerized ophthalmic lenses, during an extraction procedure. A biomedical device extraction assembly includes multiple biomedical device carriers. The structure of the individual carriers and the arrangement of the carriers in the assembly provide sufficient extraction of an extractable component from the biomedical devices during an extraction procedure using relatively small amounts of extraction media per biomedical device. Methods of extracting biomedical devices include providing polymerized biomedical devices in the present carriers and assemblies and contacting the devices with an extraction composition. | 10-23-2008 |
20080258322 | USE OF SURFACTANTS IN EXTRACTION PROCEDURES FOR SILICONE HYDROGEL OPHTHALMIC LENSES - Methods of producing silicone hydrogel ophthalmic lenses include contacting one or more delensed silicone hydrogel ophthalmic lens with a liquid composition that contains alcohol, water, and a surfactant. The methods can be steps of an extraction/hydration procedure used in the production of silicone hydrogel contact lenses. In some examples, contacting silicone hydrogel ophthalmic lens products with a liquid composition that contains alcohol, water, and a surfactant can significantly reduce or prevent surface distortion of the ophthalmic lens resulting from the extraction procedure. Some methods include subsequently contacting the silicone hydrogel ophthalmic lens with a liquid composition consisting essentially of water and a surfactant. | 10-23-2008 |
Jay Scott Rawot, Allen, TX US
Patent application number | Description | Published |
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20090090544 | System and Method for Substrate with Interconnects and Sealing Surface - A method includes providing a base. At least one lead is deposited on the base, the at least one lead including a trace of electrically conductive material having a first end and a second end. A dielectric layer is deposited on a portion of the at least one lead between the first end and the second end. A sealing surface is deposited on a portion of the dielectric layer, the sealing surface including a contiguous shape of metal separating an enclosed area of the base located inside the contiguous shape from an open area of the base located outside the contiguous shape. The first end of the at least one lead is located in the enclosed area and the second end of the at least one lead is located in the open area. Moreover, the dielectric layer electrically insulates the at least one lead from the sealing surface. | 04-09-2009 |
Jay Scott Schickling, Hendersonville, TN US
Patent application number | Description | Published |
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20100004110 | Method for Making Glass Frit Powders Using Aerosol Decomposition - The invention relates to a corrosion resistant reactor tube, method for providing a passivating or corrosion resistant coating to the inside of the reactor tube, and a method of making high bismuth glass powders using the corrosion resistant reactor tube. | 01-07-2010 |
20120064371 | REFRACTORY LINING FOR TITANIUM ORE BENEFICIATION - The disclosure relates to a refractory which is resistant to corrosion which degrades the refractory during titanium-ore beneficiation in a furnace, particularly a rotary hearth furnace. In particular, the disclosure relates to a layered refractory lining for a furnace, for use in a titanium ore beneficiation process wherein a titanium oxide-rich molten slag is formed, comprising: | 03-15-2012 |
20130287942 | REFRACTORY LINING FOR TITANIUM ORE BENEFICIATION - The disclosure relates to a refractory which is resistant to corrosion which degrades the refractory during titanium-ore beneficiation in a furnace, particularly a rotary hearth furnace. In particular, the disclosure relates to a layered refractory lining for a furnace, for use in a titanium ore beneficiation process wherein a titanium oxide-rich molten slag is formed, comprising: | 10-31-2013 |