Systems having one or more features that are advantageous for depositing fluorinated polymeric coatings on substrates, and methods of employing such systems to deposit such coatings, are generally provided.

A drench system includes a rotating mount to rotate a workpiece, a showerhead to dispense a fluid onto the workpiece; and a tray to collect the fluid and recirculate the fluid to the shower. A method of repairing or remanufacturing a coating includes abrading a surface to at least partially remove a portion of a coating to leave an abraded surface; applying a sol-gel over the abraded surface; applying a corrosion resistant primer onto the sol-gel; and applying an erosion coating onto the corrosion resistant primer.

A wheel component for a wheel of an at least partially muscle-powered two-wheeled vehicle, including a rim provided to be connected with a hub by means of spokes, the rim including a rim base with a plurality of spoke socket sections having one spoke hole each, to which the spokes can be attached by means of spoke nipples. The wheel component includes at least one washer for placement between a spoke socket section and a spoke nipple. The washer includes a through hole extending between a top face and a bottom face. The rim base includes two opposite rim flanks extending obliquely relative to one another. In its bottom face, the washer shows a canted support flank at least in sections. The washer can be supported on the rim flanks by means of its support flank such that only the support flank bears against, and contacts, the rim.

Provided is a substrate treating method for drying a substrate on which a pattern is formed. The method includes: a solidified film forming liquid supplying step, an entire surface coating step, a solidified film forming step, and a sublimation step. The entire surface coating step causes the substrate to rotate at a number of rotations for solidified film formation in accordance with a relationship among a concentration of a sublimable substance, a target solidified film thickness as a desired film thickness of a solidified film, and the number of rotations for solidified film formation as a number of rotations of the substrate for forming the solidified film of the target solidified film thickness when the concentration of the sublimable substance is a predetermined concentration.

A method of manufacturing a latex rubber article comprises providing a former wherein at least a part of the former comprises a mould surface that forms the shape of the latex rubber article, and applying liquid latex to the mould surface using an applicator that is configured to apply the liquid latex to an applicator area that is smaller than the mould surface. The method further comprises providing relative movement between the applicator and the former to produce a latex coating that covers the mould surface, curing the latex coating on the former to form the latex rubber article, and removing the latex rubber article from the former.

There is disclosed a selective wetting apparatus comprising a roller rotatable about a roller axis and comprising a wettable roller surface; an applicator unit having a lip which extends parallel to the roller axis and is radially spaced apart from the roller surface by a gap, wherein the applicator unit is to convey liquid agent towards the roller so that the liquid agent forms a liquid bridge over the gap to wet a wetted axial portion of the roller surface; and a flow guide to direct a gas flow into a regulated axial portion of the gap to locally prevent formation of a liquid bridge, and thereby prevent wetting of a corresponding axial portion of the roller surface.

A control parameter setting method for setting control parameters of film forming modules included, includes: acquiring a first parameter group including control parameters for controlling a film forming process in a first film forming module, and a second parameter group including control parameters for controlling a film forming process in a second film forming module; acquiring a film thickness value of a processed film on a substrate subjected to film formation by the first film forming module based on the first parameter group, and a film thickness value of a processed film on a substrate subjected to film formation by the second film forming module based on the second parameter group; and updating the first parameter group and the second parameter group so that a difference between the film thickness values acquired in the first film forming module and the second film forming module is reduced.

A machine for drying inks of the UV type, the machine including a supporting frame, which forms at least one exposure chamber, which can be accessed from the outside and accommodates at least one UV ray emission source. On the supporting frame, there is at least one carriage which supports rotatably at least one pan for supporting at least one object to be processed which is provided, on its surface, with at least one print provided by UV inks. Elements are furthermore provided for the rotational actuation of the pan; the carriage is movable in order to move the pan from an exposure position to at least one respective access position, in which the pan is arranged outside of the exposure chamber, in order to allow the loading or unloading of the object on or from the pan.

Method for coating a substrate with a coating material is described, in particular with a coating or photoresist, wherein said substrate is provided in said method. Said coating material is applied to said upper side of said substrate. A gas flow is generated, said gas flow being directed from said underside of said substrate to said upper side of said substrate, wherein said gas flow prevents a bead of said coating material forming on said edge of said upper side of said substrate or a previously existing bead is removed by means of said gas flow. In addition, a coating system is described.

A system and method for coating an expandable member of a medical device comprising a support structure to support the expandable member and a dispenser positioned with at least one outlet proximate a surface of an expandable member. A drive assembly establishes relative movement between the at least one outlet and the surface of the expandable member to apply fluid on the surface of the expandable member along a coating path. A guide maintains a substantially fixed distance between the at least one outlet and the surface of the expandable member during relative movement therebetween by displacing the expandable member relative to the at least one outlet.