Exemplary pressurization and coating systems, methods, and apparatuses are described herein. In certain embodiments, pressurization systems, methods, and apparatuses are used in conjunction with coating systems, methods, and apparatuses to control pressure about a substrate after a coating material is applied to a surface of the substrate. An exemplary system includes a die tool configured to apply a coating material to a substrate passing through the die tool and a pressurization apparatus attached to the die tool and forming a pressurization chamber. The pressurization apparatus is configured to receive the substrate from the die tool and control pressure about the substrate in the pressurization chamber. In certain embodiments, the die tool forms a coating chamber and is configured to apply the coating material on at least one surface of the substrate in the coating chamber.

In one aspect, a method for permeating color into components includes the step of placing substrates inside a carrier. The method includes the step of placing the carrier inside an ultrasonic cleaning tank of an ultrasonic cleaning machine. The method includes the step of performing an ultrasonic cleaning in the ultrasonic cleaning tank. After the ultrasonic cleaning, the method transports the carrier with a robotic arm to a washing tank. The method includes the step of inserting, with the robotic arm, the carrier into the washing tank and neutralizing a substrate with water in the washing tank. The method includes the step of feeding warm water into a channel of the washing tank up to a specified level. The method includes the step of steaming the washing tank for a specified steaming time.

A device and method is provided for treating surfaces, in particular for colouring moulded parts, said device comprising a container for receiving moulded parts and a first cover. The container can be closed, preferably, by using the first cover. A system is also provided for introducing liquid and/or powdery surface treatment agents into an inner chamber of the closed container. The system comprises a capsule in which the surface treatment agents which are to be introduced are accommodated.

A device for performing a surface coating of pieces is disclosed. The device comprises a housing, including one leak-tight cavity containing a drum, heating means, at least one water inlet conduit and one dyeing agent inlet conduit, and a recovery tank and a fluid recirculation circuit from said recovery tank to said leak-tight cavity and drum. The leak-tight cavity includes a first level sensor connected to a control device, such that the entry of water to the leak-tight cavity is interrupted when a specific level is reached inside the cavity, and the recovery tank includes at least a second level sensor connected to the control device, such that the entry of water and dyeing agent to the leak-tight cavity is interrupted if a specific level is exceeded inside the recovery tank.

Exemplary pressurization and coating systems, methods, and apparatuses are described herein. In certain embodiments, pressurization systems, methods, and apparatuses are used in conjunction with coating systems, methods, and apparatuses to control pressure about a substrate after a coating material is applied to a surface of the substrate. An exemplary system includes a die tool configured to apply a coating material to a substrate passing through the die tool and a pressurization apparatus attached to the die tool and forming a pressurization chamber. The pressurization apparatus is configured to receive the substrate from the die tool and control pressure about the substrate in the pressurization chamber. In certain embodiments, the die tool forms a coating chamber and is configured to apply the coating material on at least one surface of the substrate in the coating chamber.

Various embodiments include composite wicks for ultra-low noise condensation particle counters (CPCs). In one embodiment, a composite wick includes a first porous material having a first pore density, with the first porous material further having a first surface and an opposing second surface. A second porous material is in fluid communication with the first porous material and has a first surface with an area substantially the same as an area of the first surface of the first porous material. The first surface of the second porous material is substantially in contact with the first surface of the first porous material. The second porous material has a pore density that is dissimilar the first pore density of the first material. The first material and the second material are configured to provide vapor from a liquid to a fluid-based particle counter. Other apparatuses are disclosed.

Disclosed herein is an apparatus for applying a coating material to a wire, the apparatus comprising: a coating chamber for applying a thermosetting coating material to a wire passing through the coating chamber; an elongate injection channel for receiving coating material input to the coating apparatus at a first end of the injection channel and supplying the received coating material to the coating chamber that is arranged at a second end of the injection channel; and, a number of heating elements controllable to progressively raise the temperature of the coating material as the coating material flows through the coating apparatus to achieve a desired viscosity of the coating material within the coating chamber. Advantages include providing an industrial process for applying a coating to a wire that is easier, safer and cheaper than known solvent based techniques.

The invention relates to a method for plating a recess in a substrate, a device for plating a recess in a substrate and a system for plating a recess in a substrate comprising the device. The method for plating a recess in a substrate comprises the following steps: Providing a substrate with a substrate surface comprising at least one recess, applying a replacement gas to the recess to replace an amount of ambient gas in the recess to at least partially clear the recess from the ambient gas, applying a processing fluid to the recess, wherein the replacement gas dissolves in the processing fluid to at least partially clear the recess from the replacement gas, and plating the recess.

An apparatus for producing a roll of waxed fabric is provided, the apparatus comprising: a frame; a temperature controlled bath at an entrance end of the frame; a squeegee pressed against an exit side of the temperature controlled bath; a cooling tower adjacent the temperature controlled bath, the cooling tower including walls and a manifold to define a cooling zone, the manifold for delivering a flow of air to the cooling zone, a tower roller rotatably mounted above the cooling zone and a lower roller rotatably mounted proximate an exit side of the cooling tower; a blower for delivering air to the manifold; a collection roller rotatably mounted adjacent the alignment roller; a driver roller in rolling engagement with the collection roller; and a motor in mechanical communication with the driver motor for driving the driver motor. A method of producing a roll of waxed fabric is also provided.

The invention relates to a method for plating a recess in a substrate, a device for plating a recess in a substrate and a system for plating a recess in a substrate comprising the device. The method for plating a recess in a substrate comprises the following steps: a) Providing a substrate with a substrate surface comprising at least one recess, b) applying a replacement gas to the recess to replace an amount of ambient gas in the recess to at least partially clear the recess from the ambient gas, c) applying a processing fluid to the recess, wherein the replacement gas dissolves in the processing fluid to at least partially clear the recess from the replacement gas, and d) plating the recess.