Patent application number | Description | Published |
20100208432 | Thermal Interface Material, Electronic Device Containing the Thermal Interface Material, and Methods for Their Preparation and Use - A thermal interface material includes a thermally conductive metal matrix and coarse polymeric particles dispersed therein. The composite can be used for both TIM | 08-19-2010 |
20100328895 | Composite, Thermal Interface Material Containing the Composite, and Methods for Their Preparation and Use - A composite includes a thermally conductive metal matrix and silicone particles dispersed therein. The composite can be used to form a thermal interface material in an electronic device. The composite can be used for both TIM1 and TIM2 applications. | 12-30-2010 |
20110033398 | Emulsions Of Boron Crosslinked Organopolysiloxanes And Their Use In Personal Care Compositions - A process is disclosed for preparing an emulsion composition by forming a mixture of a silanol functional organopolysiloxane, a boron compound, an emulsifier, and then admixing water to the mixture to form an emulsion. The resulting emulsions are useful for providing benefits in personal care applications, particularly hair care compositions. | 02-10-2011 |
20110033627 | Emulsions of Boron Crosslinked Organopolysiloxanes - A process is disclosed for preparing an emulsion composition by forming a mixture of a silanol functional organopolysiloxane, a boron compound, an emulsifier, and then admixing water to the mixture to form an emulsion. The resulting emulsions are useful for providing a coating of a high viscosity or dilatant silicone. | 02-10-2011 |
20110039087 | Emulsions Of Dilatant Organopolysiloxanes - Emulsions are disclosed of dilatant boron crosslinked organopolysiloxanes, coatings prepared from the emulsions, and various substrates impregnated with these coatings. The emulsions may be coated or impregnated onto fabrics to provide an energy absorbing material in Active Protection Systems. | 02-17-2011 |
20120015108 | Composition Containing A Silicon-Containing Compound - The invention provides a composition for improving the water repellency of a substrate, like a construction substrate for example a building component. This composition contains a mixture formed by combining: water, at least one water-repellent silicon-containing compound, which is a silicone resin, an alkoxysilane or a polysiloxane, a siloxane surfactant containing an alkylpoly(ethyleneoxy)siloxane group and an alkyl siloxane group, where the alkyl group contains 1-6 carbon atoms. The composition can be used on previous treated substrates or more generally on substrates which are difficult to wet or penetrate. | 01-19-2012 |
20140031465 | Curable Organosiloxane Block Copolymer Emulsions - The present disclosure provides aqueous silicone emulsions of a “resin-linear” organosiloxane block copolymers. The present disclosure further provides a process for making these emulsions by forming a mixture of an organosiloxane block copolymer, admixing a sufficient amount of water to the mixture from to form an emulsion, and optionally further shear mixing the emulsion. The present invention further relates to the cured and/or coating compositions prepared from the present emulsions. | 01-30-2014 |
20150189867 | Silver-Loaded Microparticles and Loading of Same Into Silicones - Provided in various embodiments are methods of loading solid microparticles and nanoparticles of silver, including silver-based compounds, on silicone particles to surface modify the silicone particles. The silver-loaded microparticles and silver-loaded nanoparticles can be dispersed or loaded into silicones for use in antimicrobial and other applications. | 07-09-2015 |
Patent application number | Description | Published |
20110028635 | Silicone Polymer Dispersion And Method Of Forming Same - A dispersion includes dispersed particles. The particles include a reaction product of a first polymer, a second polymer, and a chain terminator. The first and second polymers have at least two Si—H moieties and silicon bonded unsaturated moieties, respectively. The chain terminator has one Si—H moiety or one unsaturated hydrocarbon moiety. The first and second polymers and the chain terminator are reacted in the presence of a metal catalyst. The dispersion is formed by a method that includes the step of combining the first and second polymers, and the chain terminator. This method also reacts the first and second polymers and the chain terminator in the presence of the metal catalyst to form the dispersed particles. | 02-03-2011 |
20110165811 | Article Formed From Electrospinning A Dispersion - An article of fibers includes a cured compound. The fibers are formed from electrospinning a dispersion. The dispersion includes a liquid and a condensation curable compound. A content of the liquid in the dispersion is reduced such that the condensation curable compound cures. The article is formed from a method of manufacturing which includes the step of forming the dispersion. The method also includes the step of electro spinning the dispersion to reduce the content of the liquid such that the condensation curable compound cures. | 07-07-2011 |
20110171471 | Metallized Particles Formed From A Dispersion - A particle is formed from a dispersion and includes a compound and a metal disposed on the particle. The compound has the chemical formula R—Si—H. In this formula, R is an organic or inorganic moiety. The particle is also included in a corresponding dispersion. The particle is formed from a method that includes the step of forming the dispersion. The method also includes the step of disposing the metal on the particle. | 07-14-2011 |
20140272111 | NON-AQUEOUS EMULSIONS AND METHODS OF PREPARING SURFACE-TREATED ARTICLES - Non-aqueous emulsions comprise a continuous organic phase comprising an organic vehicle. The non-aqueous emulsions further comprise a discontinuous phase comprising a polyfluoropolyether silane. Methods of preparing surface treated articles therewith are also disclosed. | 09-18-2014 |
Patent application number | Description | Published |
20130122204 | Silicone Gum Emulsions - A process for preparing emulsions of silicone gums is disclosed based on using an ethylene oxide/propylene oxide block copolymer as the emulsifier. The emulsions produced by the present process are useful as coatings additives for both water-based and oil-based coatings to obtain improved slip and anti-mar properties. The emulsions may also be used in the manufacture of tires as band ply lubricants. They may also be used in personal care applications. | 05-16-2013 |
20130338239 | Bi-Modal Emulsions - Bi-modal water continuous emulsions are disclosed comprising at least 70 weight percent of: a first dispersed phase containing a hydrophobic oil, wherein the hydrophobic oil is provided as a non-emulsified hydrophobic oil, a second dispersed phase containing a silicone, wherein the silicone is provided from a water continuous silicone emulsion containing at least one surfactant. | 12-19-2013 |
20130345342 | Bi-Modal Emulsions - A process for preparing bi-modal water emulsions is disclosed comprising: I) forming a mixture comprising; A) 100 parts by weight of a hydrophobic oil, B) 1 to 1000 part by weight of a water continuous emulsion having at least one surfactant, II) admixing additional quantities of the water continuous emulsion and/or water to the mixture from step I) to form a bi-modal emulsion. | 12-26-2013 |
20140357773 | Silicone Resin Emulsions - A process for preparing silicone emulsions is disclosed based on using an ethylene oxide/propylene oxide block copolymer as the emulsifier. The silicone emulsions comprise: A) 0.5 wt % to 95 wt % of a silicone resin or pressure sensitive adhesive (PSA), B) 0.1 to 90 wt % of a ethylene oxide/propylene oxide block copolymer, and sufficient amount of water to sum to 100 weight percent. The present disclosure further relates to a process for making a silicone resin emulsion comprising: I) forming a dispersion of; A) 100 parts of a silicone resin or PSA, B) 5 to 100 parts of a ethylene oxide/propylene oxide block copolymer, II) admixing a sufficient amount of water to the dispersion from step I) to form an emulsion, III) optionally, further shear mixing the emulsion. | 12-04-2014 |
20140371317 | Silicone Resin Emulsions - The present disclosure relates to compositions comprising: i) an aqueous silicone emulsion comprising; A) 0.5 wt % to 95 wt % of a silicone gum, resin, or PSA, B) 0.1 to 90 wt % of an ethylene oxide/propylene oxide block copolymer, and sufficient amount of water to sum all ingredients of the silicone gum emulsion to 100 weight percent, ii) a healthcare active, and iii) an optional enhancer(s). | 12-18-2014 |
20150031825 | Method Of Forming Particles From An Oil-In-Water Emulsion - Particles having an average diameter of at least 30 nanometers include a polymerization product of a silanol, a cyclic silazane, and an isocyanate. The particles are formed in an oil-in-water emulsion which includes less than 0.1 weight percent of a hydrophobic costabilizer. The particles are formed by a method including the step of reacting the silanol and the cyclic silazane and the isocyanate and the step of forming the oil-in-water emulsion. | 01-29-2015 |
20150190516 | Aqueous Silicone Dispersions And Films And Their Preparation - An aqueous dispersion, useful for forming a film, comprises a silicone composition dispersed in an aqueous phase. The silicone composition comprises a product of a reaction of (a) an alkenyl-containing organopolysiloxane having an average per molecule of at least 2 alkenyl groups and (b) an Si H containing siloxane having an average per molecule of at least 2 Si H moieties. The dispersion also comprises a hydrosilylation catalyst and polyvinyl alcohol. The composition is stabilised in dispersion form by the polyvinyl alcohol dissolved in the aqueous phase. The dispersion is an effective method of delivering a pharmaceutically or cosmetically active ingredient by topical application. | 07-09-2015 |
20150291797 | BI-MODAL EMULSIONS - Bi-modal water continuous emulsions are disclosed comprising at least 70 weight percent of a first dispersed phase containing a hydrophobic oil, wherein the hydrophobic oil is provided as a non-emulsified hydrophobic oil, a second dispersed phase containing a silicone, wherein the silicone is provided from a water continuous silicone emulsion containing at least one surfactant. | 10-15-2015 |
Patent application number | Description | Published |
20100148839 | Self-Tuning Of Signal Path Delay In Circuit Employing Multiple Voltage Domains - Circuits and methods provided in multiple voltage domains that include self-tuning or timing of a signal path are disclosed. A plurality of paths is provided in the circuit. Each path traverses a portion of the multiple voltage domains, which may include any number or combination of the multiple voltage domains. Each of the paths has a delay responsive to at least one of the plurality of voltage domains. A delay circuit is provided and configured to generate a delay output related to the delay in the plurality of paths. In this manner, the delay output of the delay circuit is self-tuned or adjusted according to the delay in the plurality of paths. This self-tuning may be particularly suited to control the delay of a first signal path relative to a second signal path wherein the delay in the paths can vary with respect to each other during operation. | 06-17-2010 |
20110249518 | Circuits, Systems, and Methods for Dynamic Voltage Level Shifting - Dynamic voltage level shifting circuits, systems and methods are disclosed. A level shifting circuit comprises an input for accepting a first discrete voltage level to be shifted, a level shifting portion coupled to the input and to a second discrete voltage level, an enable portion having an enable input and coupled to the level shifting portion and an output. The level shifting circuit is configured to translate the data input at the first discrete voltage level into a second discrete voltage level. The enable portion is configured to selectively provide either the second discrete voltage level to the output or decouple at least a portion of the level shifting portion from the output based on the enable input. | 10-13-2011 |
20130257498 | Pulse Clock Generation Logic with Built-in Level Shifter and Programmable Rising Edge and Pulse Width - Systems and methods for generating pulse clocks with programmable edges and pulse widths configured for varying requirements of different memory access operations. A pulse clock generation circuit includes a selective delay logic to provide a programmable rising edge delay of the pulse clock, a selective pulse width widening logic to provide a programmable pulse width of the pulse clock, and a built-in level shifter for shifting a voltage level of the pulse clock. A rising edge delay for a read operation is programmed to correspond to an expected read array access delay, and the pulse width for a write operation is programmed to be wider than the pulse width for a read operation. | 10-03-2013 |
20140328113 | PRE-CHARGING BITLINES IN A STATIC RANDOM ACCESS MEMORY (SRAM) PRIOR TO DATA ACCESS FOR REDUCING LEAKAGE POWER, AND RELATED SYSTEMS AND METHODS - Embodiments disclosed herein include methods and apparatuses for pre-charging bitlines in a static random access memory (SRAM) prior to data access for reducing leakage power. The memory access logic circuit receives a memory access request comprising a data entry address to be accessed in a first data access path of a SRAM data array of the SRAM. The SRAM also includes a pre-charge circuit provided in a second data access path outside the first data access path. The pre-charge circuit is configured to enable pre-charging of the SRAM data array as part of the memory access request to avoid pre-charging bitlines in the SRAM data array during idle periods to reduce leakage power. The pre-charge circuit can enable pre-charging of the SRAM data array prior to data access such that the pre-charge circuit does not add latency to the first data access path. | 11-06-2014 |
Patent application number | Description | Published |
20100058306 | System and Method for Secure Information Handling System Flash Memory Access - Firmware updates at an information handling system flash memory device, such as provisioning information stored on a USB device, are securely performed by using a buffer memory and a secured code. An application running on a CPU generates a firmware update and a security code, such as a ciphered hash code based on the firmware update, stores the firmware update and security code in a buffer, and informs a management processor of the update. The management processor analyzes the firmware update to authorize copying of the update from the buffer to the flash memory device. For instance, the management processor creates the security code from the firmware update and compares the created code with the security code stored in the buffer to validate the firmware update. | 03-04-2010 |
20100192145 | Operation System Installation Methods and Media - A method for out-of-band installation and provisioning of an operating system in an information handling system is provided. The method may include sending an OS installation request to a management controller, which may include an internal persistent storage Furthermore, the method may include selecting a selected OS driver pack in response to the OS installation request and exposing the selected OS driver pack to a target server. Finally, the method may include installing the OS with the selected OS driver pack onto the target server. | 07-29-2010 |
20100268925 | SYSTEM AND METHOD FOR POPULATING A DEDICATED SYSTEM SERVICE REPOSITORY FOR AN INFORMATION HANDLING SYSTEM - An information handling system includes a processor, a memory device coupled to the processor, and a dedicated system service repository (DSSR) coupled to the processor. The DSSR is configured to store a base image that includes a plurality of partitions and a first system configuration image, wherein the first system configuration image is stored in a first partition of the plurality of partitions, wherein the first system configuration image is configured to provide in-band and/or out-of-band managed access to the DSSR when executed; and by accessing the first system configuration image, the DSSR is populated with a second system configuration image, wherein the second system configuration image is stored in a second partition of the plurality of partitions. | 10-21-2010 |
20150160627 | METHODS AND SYSTEMS FOR MONITORING AND MANAGEMENT IN A DISTRIBUTED ARCHITECTURE INFORMATION HANDLING SYSTEM CHASSIS - In accordance with embodiments of the present disclosure, a method for use in a chassis having a plurality of slots each configured to receive a module having one or more information handling systems wherein each slot is configured to electrically and communicatively couple the module to other components of the chassis may be provided. The method may include receiving, by a controller integral to the chassis, a signal from a sensor integral to the chassis, the signal indicative of a measured physical quantity of the sensor. The method may also include communicating, from the controller to a remote access controller integral to at least one module disposed in the plurality of slots, sensor information in conformity with the signal. | 06-11-2015 |
20150278524 | System and Method for Secure Information Handling System Flash Memory Access - Firmware updates at an information handling system flash memory device, such as provisioning information stored on a USB device, are securely performed by using a buffer memory and a secured code. An application running on a CPU generates a firmware update and a security code, such as a ciphered hash code based on the firmware update, stores the firmware update and security code in a buffer, and informs a management processor of the update. The management processor analyzes the firmware update to authorize copying of the update from the buffer to the flash memory device. For instance, the management processor creates the security code from the firmware update and compares the created code with the security code stored in the buffer to validate the firmware update. | 10-01-2015 |