An apparatus (102) for delivering a glutinous substance (168) from a cartridge (166) to an applicator (154) is disclosed. The apparatus (102) comprises a sleeve (106) and a pressure-cap assembly (104) coupled to the sleeve (106). The pressure-cap assembly (104) comprises a pressure cap (110) proximate an inlet (124) of the sleeve (106). The pressure cap (110) is movable between, inclusively, a closed position, in which the pressure cap (110) is in sealed engagement with a trailing end (169) of the cartridge (166), and an open position, in which the pressure cap (110) provides clearance sufficient for insertion of the cartridge (166) inside the sleeve (106) through the inlet (124) of the sleeve (106). The pressure cap (110) comprises a pressure input (118), through which pressure is selectively applied to the glutinous substance (168) in the cartridge (166). The apparatus (102) also comprises an applicator interface (108) proximate the outlet (128) of the sleeve (106).

An applicator for a reversible dry adhesive is provided with a flexible substrate with a convex application surface in an unloaded condition of the flexible substrate. A reversible dry adhesive is spread across the application surface to provide a focused partial contact with a generally flat target support surface. Compression of the substrate expands contact of the reversible dry adhesive with the target support surface outward from the focused contact. A hardware assembly is provided with a hardware component for installation to the target support surface upon the reversible dry adhesive. A method of installing the reversible dry adhesive applies the focused partial contact of the reversible dry adhesive to the generally flat target support surface.

An applicator for delivering a glutinous substance to a workpiece from an end-effector is disclosed. The applicator comprises a body and a plunger. The plunger comprises a gate, movable within an outlet portion of a first channel of the body between, inclusively, an open position, allowing the glutinous substance to flow from an inlet of the first channel to an outlet of the first channel and a closed position, preventing the glutinous substance from flowing from the inlet of the first channel to the outlet of the first channel. The applicator further comprises an actuator, selectively operable to move the plunger such that the gate moves between, inclusively, the open position and the closed position.

An applicator for delivering a glutinous substance to a workpiece from an end-effector is disclosed. The applicator comprises a body and a plunger. The plunger comprises a gate, movable within an outlet portion of a first channel of the body between, inclusively, an open position, allowing the glutinous substance to flow from an inlet of the first channel to an outlet of the first channel and a closed position, preventing the glutinous substance from flowing from the inlet of the first channel to the outlet of the first channel. The applicator further comprises an actuator, selectively operable to move the plunger such that the gate moves between, inclusively, the open position and the closed position.

A fluid supply system includes: a support body having: a base plate; a side plate provided on one side of the base plate in the longitudinal direction so as to be orthogonal to the base plate; and a top plate provided on one end of the base plate in the height direction so as to be orthogonal to the base plate and the side plate; a process-gas supply unit provided on an outer surface of the top plate; a liquid supply unit provided on an inner surface of the side plate so as to communicate with the process-gas supply unit via a communication-flow-channel forming block; and a purge-gas supply unit provided on an inner surface of base plate so as to communicate with the process-gas supply unit via a communication pipe.

A fluid supply system includes: a support body having: a base plate; a side plate provided on one side of the base plate in the longitudinal direction so as to be orthogonal to the base plate; and a top plate provided on one end of the base plate in the height direction so as to be orthogonal to the base plate and the side plate; a process-gas supply unit provided on an outer surface of the top plate; a liquid supply unit provided on an inner surface of the side plate so as to communicate with the process-gas supply unit via a communication-flow-channel forming block; and a purge-gas supply unit provided on an inner surface of base plate so as to communicate with the process-gas supply unit via a communication pipe.

A fabrication assembly comprises an apparatus that receives a composite substrate and a glass substrate having a surface with a release coating layer. A resin layer is deposited between the composite and glass substrates such that a first portion of the resin layer is positioned adjacent to a surface of the composite substrate and a second portion of the resin layer is positioned adjacent to the surface with the release coating layer to prevent aperture(s) from forming. A curing of the resin layer is conducted using electromagnetic radiation. A post-processing chamber receives the resin layer positioned between the composite substrate and the glass substrate and conducts another curing of the resin layer. The resin layer and the composite substrate are released from the glass substrate. Another deposition apparatus receives the resin layer and the composite substrate. A metallic coating is deposited to form a composite mirror object.

A fabrication assembly comprises an apparatus that receives a composite substrate and a glass substrate having a surface with a release coating layer. A resin layer is deposited between the composite and glass substrates such that a first portion of the resin layer is positioned adjacent to a surface of the composite substrate and a second portion of the resin layer is positioned adjacent to the surface with the release coating layer to prevent aperture(s) from forming. A curing of the resin layer is conducted using electromagnetic radiation. A post-processing chamber receives the resin layer positioned between the composite substrate and the glass substrate and conducts another curing of the resin layer. The resin layer and the composite substrate are released from the glass substrate. Another deposition apparatus receives the resin layer and the composite substrate. A metallic coating is deposited to form a composite mirror object.

A process for depositing a compact film of particles on an internal surface of a part, including: a) placing the part in a carrier liquid; b) generating a carrier liquid stream in a hollow of the part towards a surface of the carrier liquid, to create a protuberance; c) dispensing the particles to form a compact film floating on the liquid between a contact line and an upstream front of particles; and d) transferring the film onto the internal surface by operating a relative displacement between the part and the surface of the carrier liquid, while continuing dispensing the particles on the upstream front.

A process for depositing a compact film of particles on an internal surface of a part, including: a) placing the part in a carrier liquid; b) generating a carrier liquid stream in a hollow of the part towards a surface of the carrier liquid, to create a protuberance; c) dispensing the particles to form a compact film floating on the liquid between a contact line and an upstream front of particles; and d) transferring the film onto the internal surface by operating a relative displacement between the part and the surface of the carrier liquid, while continuing dispensing the particles on the upstream front.