Patent application number | Description | Published |
20090005499 | Silicone Resin Film, Method of Preparing Same, and Nanomaterial-Filled Silicone Composition - A method of preparing a silicone resin film comprising coating a release liner with a nanomaterial-filled silicone composition comprising (i) a hydrosilylation-curable silicone composition comprising a silicone resin and a photoactivated hydrosilylation catalyst and (ii) a carbon nanomaterial, and exposing the coating to radiation having a wavelength of from 150 to 800 nm at a dosage sufficient to cure the silicone resin; a silicone resin film prepared according to the preceding method; and a nanomaterial-filled silicone composition. | 01-01-2009 |
20100062247 | Silicone Resin Film, Method of Preparing Same, and Nanomaterial-Filled Silicone Composition - A method of preparing a silicone resin film, the method comprising coating a release liner with a nanomaterial-filled silicone composition comprising a condensation-curable silicone composition and a carbon nanomaterial, and curing the silicone resin of the coated release liner; a silicone resin film prepared according to the preceding method, and a nanomaterial-filled silicone composition. | 03-11-2010 |
20100075127 | Reinforced Silicone Resin Film and Method of Preparing Same - A method of preparing a reinforced silicone resin film, the method comprising the steps of impregnating a fiber reinforcement in a nanomaterial-filled silicone composition comprising a hydrosilylation-curable silicone composition and a carbon nanomaterial, and curing the silicone resin of the impregnated fiber reinforcement; and a reinforced silicone resin film prepared according to the preceding method. | 03-25-2010 |
20100087581 | Reinforced Silicone Resin Film and Method of Preparing Same - A method of preparing a reinforced silicone resin film comprising impregnating a fiber reinforcement in a nano-material-filled silicone composition comprising a condensation-curable silicone composition and a carbon nanomaterial, and curing the silicone resin of the impregnated fiber reinforcement; and a reinforced silicone resin film prepared according to the preceding method. | 04-08-2010 |
20100233379 | Silicone Resin Film, Method Of Preparing Same, And Nanomaterial-Filled Silicone Composition - A method of preparing a silicone resin film comprising coating a release liner with a nanomaterial-filled silicone composition comprising (i) a free radical-curable silicone composition comprising a silicone resin and (ii) a carbon nanomaterial, and curing the silicone resin of the coated release liner; a silicone resin film prepared according to the preceding method; and a nanomaterial-filled silicone composition. | 09-16-2010 |
20120034418 | Process for Preparing Conductive Films and Articles Prepared Using the Process - A free standing film includes: i. a matrix layer having opposing surfaces, and ii. an array of nanorods, where the nanorods are oriented to pass through the matrix layer and protrude an average distance of at least 1 micrometer through one or both surfaces of the matrix layer. A method for preparing the free standing film includes (a) providing an array of nanorods on a substrate, optionally (b) infiltrating the array with a sacrificial layer, (c) infiltrating the array with a matrix layer, thereby producing an infiltrated array, optionally (d) removing the sacrificial layer without removing the matrix layer, when step (b) is present, and (e) removing the infiltrated array from the substrate to form the free standing film. The free standing film is useful as an optical filter, ACF, or TIM, depending on the type and density of nanorods selected. | 02-09-2012 |
20120034422 | Process for Preparing Conductive Films and Articles Prepared Using the Process - A free standing film includes: i. a matrix layer having opposing surfaces, and ii. an array of nanorods, where the nanorods are oriented to pass through the matrix layer and protrude an average distance of at least 1 micrometer through one or both surfaces of the matrix layer. A method for preparing the free standing film includes (a) providing an array of nanorods on a substrate, optionally (b) infiltrating the array with a sacrificial layer, (c) infiltrating the array with a matrix layer, thereby producing an infiltrated array, optionally (d) removing the sacrificial layer without removing the matrix layer, when step (b) is present, and (e) removing the infiltrated array from the substrate to form the free standing film. The free standing film is useful as an optical filter, ACF, or TIM, depending on the type and density of nanorods selected. | 02-09-2012 |
20150232782 | LUBRICANT COMPOSITIONS - A lubricant composition comprises: (A) a non-silicone base stock oil; and (B) a silicone oil. The Viscosity Index of the lubricant composition, as measured in accordance with ASTM D 2270-10e1, is greater than that of the non-silicone lubricant base stock oil (A) by at least 10% and is shear stable according to DIN 51350-6. | 08-20-2015 |
20150263208 | Method of Forming an Electronic Article - An electronic article has a perimeter and includes a superstrate, an optoelectronic element disposed on the superstrate, and a silicone encapsulant that is formed from a curable silicone composition and that is disposed on the optoelectronic element sandwiching the optoelectronic element between the superstrate and the silicone encapsulant. The electronic article is formed using a method that includes the step of depositing the curable silicone composition on the optoelectronic element in a pattern defining at least one passage extending from an interior of the electronic article to a perimeter of the electronic article. The method also includes laminating the superstrate, the optoelectronic element, and the curable silicone composition. The curable silicone composition has a complex viscosity of from 10,000 to 50,000,000 cPs at 25° C. as measured at 1 radian per second at 1 to 5% strain. During lamination, the curable silicone composition cures to form the silicone encapsulant and air escapes from through the at least one passage. | 09-17-2015 |
Patent application number | Description | Published |
20100043196 | METHOD OF MAKING A CO-AXIAL CATHETER - A co-axial catheter assembly ( | 02-25-2010 |
20110271856 | Method and Apparatus for Printing Radiopaque Indicia - A method of printing radiopaque indicia on a medical device. The method includes applying radiopaque marking fluid to a surface of a plate comprising one or more etchings having a depth of at least 0.0001 inches, exposing the radiopaque marking fluid on the surface of the plate to air to allow the radiopaque marking fluid to achieve a sufficient level of tackiness, and transferring the radiopaque marking fluid to a medical device. The radiopaque marking fluid comprises a clear ink and tungsten particulates having a particulate size of more than one micron. | 11-10-2011 |
20130165815 | Insertion Device for Providing Fine Needle Aspiration and Core Biopsy - An insertion device for taking samples within a body. The insertion device includes a trigger housing, an outer sheath assembly, a sampling device, and a resilient member. The trigger housing includes an interior channel in which the resilient member is disposed to urge the outer sheath assembly away from a proximal end of the trigger housing. The outer sheath assembly is disposed within the interior channel of the trigger housing. The outer sheath assembly includes a body and an outer sheath attached to a distal end of the body. The sampling device is removably disposed within the outer sheath assembly and the trigger housing. The sampling device may be a removable biopsy needle assembly which is used to cock the insertion device. The removable biopsy needle assembly may be removed from the insertion device and be replaced by a needle assembly for fine needle aspiration. | 06-27-2013 |
20130237928 | Huber Needle Assembly - A Huber needle assembly. The Huber needle assembly includes a housing, a Huber needle having a bent tip, a base through which the Huber needle is slidably disposed, a tip block mechanism, and a safety or restraint mechanism. The tip block mechanism includes a needle block slidably disposed within the base and urged by a spring to block the tip of the Huber needle when the tip of the Huber needle is retracted into the base. In one exemplary embodiment, the safety or restraint mechanism includes a cable having a first end anchored within the housing and a second end anchored within the base. The cable restrains movement of the housing relative to the base. In another exemplary embodiment, the safety or restraint mechanism includes a collar disposed within the base. The collar is configured to prevent passage of the bent tip of the Huber needle. | 09-12-2013 |
Patent application number | Description | Published |
20090149743 | Medical Fluid Injection System - One embodiment provides a method of using contextual lighting to assist a user of a medical fluid injection system. In this embodiment, the method includes providing a lighted display in proximity to a component of the injection system during setup of the medical fluid injection system. If the user has properly performed a setup function that is associated with the component of the injection system, the method further comprises providing a first visual indication on the lighted display. If the user has not properly performed the setup function that is associated with the component of the injection system, the method further comprises providing a second visual indication on the lighted display. | 06-11-2009 |
20130053692 | MEDICAL FLUID INJECTION SYSTEM - One embodiment provides a method of using contextual lighting to assist a user of a medical fluid injection system. In this embodiment, the method includes providing a lighted display in proximity to a component of the injection system during setup of the medical fluid injection system. If the user has properly performed a setup function that is associated with the component of the injection system, the method further comprises providing a first visual indication on the lighted display. If the user has not properly performed the setup function that is associated with the component of the injection system, the method further comprises providing a second visual indication on the lighted display. | 02-28-2013 |
20130066202 | MEDICAL FLUID INJECTION SYSTEM - One embodiment provides a method of using contextual lighting to assist a user of a medical fluid injection system. In this embodiment, the method includes providing a lighted display in proximity to a component of the injection system during setup of the medical fluid injection system. If the user has properly performed a setup function that is associated with the component of the injection system, the method further comprises providing a first visual indication on the lighted display. If the user has not properly performed the setup function that is associated with the component of the injection system, the method further comprises providing a second visual indication on the lighted display. | 03-14-2013 |
20130067416 | MEDICAL FLUID INJECTION SYSTEM - One embodiment provides a method of using contextural lighting to assist a user of a medical fluid injection system. In this embodiment, the method includes providing alighted display in proximity to a component of the injection system during setup of the medical fluid injection system. If the user has properly performed a setup function that is associated with the component of the injection system, the method further comprises providing a first visual indication on the lighted display. If the user has not properly performed the setup function that is associated with the component of the injection system, the method further comprises providing a second indication on the lighted display. | 03-14-2013 |