A disclosed digital media device operational at user premises to receive media signals from a media source for presentation via endpoint devices such as a television display. The digital media device can include gateway and digital media management functionality and can be referred to as a gateway and digital media device. The device offers application services obtained over a wide area network and a user premises network. The digital media device may form a composite signal from the media signal and application service information, for example, for a composite audio and/or video signal for television type presentation to the user. The digital media device may receive a selection signal based on the presentation, for transmission to the application service provider device or to the media source. The media device also offers a GUI presenting a moveable arrangement of icons for selectively accessing application services.

The present application relates to a solvent-free matt polyurea coating which is obtained by carrying out a reaction through reacting at least following components: a) a polyisocyanate prepolymer; b) a polyether amine; c) a main chain extender, wherein the coating further comprises ground carbon fibers as a matting agent. The carbon fibers have an average fiber length greater than or equal to 50 μm and less than or equal to 150 μm, a weight fraction greater than or equal to 4.5% and less than or equal to 25%. The present application also relates to a kit of parts for producing a solvent-free matt polyurea coating.

The present invention aims at providing a coating film excellent in water repellency and oil repellency and further excellent in wear resistance, and a layered body comprising said coating film formed on a base material and a method for manufacturing the same. The present invention provides a coating film having at least an outermost surface layer (M) and a layer (K1) in contact with the layer (M), wherein a density of the layer (M) is 0.7 g/cm.sup.3 or more and less than 1.0 g/cm.sup.3, and a density of the layer (K1) is 1.0 g/cm.sup.3 or more and less than 2.2 g/cm.sup.3. The layer (M) preferably has a polydimethylsiloxane skeleton and/or a trialkylsilyl group.

The present disclosure describes a system including: at least one ceramic foam comprising a porous top surface, porous channels, and a porous bottom surface, wherein the at least one ceramic foam is over a surface of a solar panel such that when dust particles are poured onto the porous top surface of the at least one ceramic foam, the dust particles permeate through the porous channels of the at least one ceramic foam and then exit from the porous bottom surface of the at least one ceramic foam to form a layer of dust, with a pre-determined thickness, on the surface of the solar panel.

The present disclosure describes a system including: at least one ceramic foam comprising a porous top surface, porous channels, and a porous bottom surface, wherein the at least one ceramic foam is over a surface of a solar panel such that when dust particles are poured onto the porous top surface of the at least one ceramic foam, the dust particles permeate through the porous channels of the at least one ceramic foam and then exit from the porous bottom surface of the at least one ceramic foam to form a layer of dust, with a pre-determined thickness, on the surface of the solar panel.

A staple cartridge assembly for use with a surgical stapling instrument includes a staple cartridge including a plurality of staples and a cartridge deck. The staple cartridge assembly also includes a compressible adjunct positionable against the cartridge deck, wherein the staples are deployable into tissue captured against the compressible adjunct, and wherein the compressible adjunct comprises a first biocompatible layer comprising a first portion, a second biocompatible layer comprising a second portion, and crossed spacer fibers extending between the first portion and the second portion.

A staple cartridge assembly for use with a surgical stapling instrument includes a staple cartridge including a plurality of staples and a cartridge deck. The staple cartridge assembly also includes a compressible adjunct positionable against the cartridge deck, wherein the staples are deployable into tissue captured against the compressible adjunct, and wherein the compressible adjunct comprises a first biocompatible layer comprising a first portion, a second biocompatible layer comprising a second portion, and crossed spacer fibers extending between the first portion and the second portion.

Embodiments of the present invention describe a method for manufacture of a gel material comprising the steps of: forming a gel sheet by dispensing a gel precursor mixture; allowing gelation to occur to the gel precursor mixture; and cooling the formed gel with a cooling system to control reaction rate.

Embodiments of the present invention describe a method for manufacture of a gel material comprising the steps of: forming a gel sheet by dispensing a gel precursor mixture; allowing gelation to occur to the gel precursor mixture; and cooling the formed gel with a cooling system to control reaction rate.

Inside a heating space of a heating chamber, a first heating treatment of moving a substrate along a substrate moving direction is performed by a first conveyor. After that, first conveyance processing of moving the substrate along a conveying direction is performed by a second conveyor. At this time, source mist is sprayed on the substrate by first thin film forming nozzles. Subsequently, second heating treatment is performed by a third conveyor. After that, second conveyance processing is performed by a fourth conveyor. At this time, source mist is sprayed on the substrate by second thin film forming nozzles.