Abstract:
A machine for impregnating a die cast metal part with liquid impregnant comprises an impregnation chamber having liquid impregnant in a lower portion, an opening for ingress and egress of the parts being defined in a side wall of the chamber above the liquid impregnant, a door for sealing the opening, a part holder in the chamber and an elevator for positioning parts above the liquid impregnant during evacuation of the chamber and then immersing the parts in the liquid impregnant during subsequent pressurization of the chamber.
Abstract:
The present invention relates to an electroless plating apparatus which can reduce the amount of a plating liquid to be used, maintain a stable plating process, be downsized, reduce an apparatus cost, form a film having a uniform thickness over an entire surface, and prevent a plating liquid from being deteriorated due to a temperature rise. The present invention comprises a holding apparatus for holding a substrate with a surface, to be plated, facing upward, a plating liquid holding mechanism for sealing a periphery of the surface, to be plated, of the substrate held by the holding apparatus, an electroless plating treatment liquid supply apparatus for supplying an electroless plating liquid to the surface, to be plated, of the substrate sealed by the plating liquid holding mechanism to allow the supplied electroless plating liquid to be stored on the substrate, and a heating apparatus provided below the substrate.
Abstract:
A coating apparatus having a fluid circulating system wherein the fluid ascending in a dipping container overflows an overflow edge disposed at the top of the dipping container into an overflow-fluid receiving container and returns from the bottom of the overflow-fluid receiving container into the dipping container, wherein the dipping container has a depth of null to null of the internal diameter thereof. When the dipping container is too deep, the powder or the like tends to be compressed tightly in the upper part of the dipping container, often impeding efficient insertion of a substrate, but the coating apparatus according to the present invention, the dimension thereof being specified as above, keeps favorable fluidity of the powder or the like.
Abstract:
A method and apparatus for applying a fluid preservative to wood or wood products has a work tank for maintaining a predetermined concentration of preservative in the fluid. The work tank is equipped with a heater to keep the temperature of the fluid and the preservative in the work tank at a predetermined level. Hot fluid and preservative is drawn under a vacuum, initially from the work tank. On filling a pressure vessel, a pressure pump then supplies the preservative and fluid mixture under pressure to the pressure vessel in which the wood or wood product is being treated. As the treatment process depletes the preservative in the fluid, through absorption in the wood, the depleted fluid is circulated back to the work tank where it is heated and more preservative is added to restore the concentration of preservative in the fluid to a desired level. The fluid, replenished with preservative, is then pumped into the pressure vessel. In this way a more uniform distribution of preservative in a desired concentration is achieved in the treated wood or wood product.
Abstract:
There is provided a plating apparatus which can keep a plating solution always in its optimal condition while minimizing, the amount of plating solution used, and which can easily form a uniform plated film on the plating surface of a workpiece. The plating apparatus includes: a plating solution supply system (70) for constantly circulating a plating solution while heating the plating solution in a circulation tank (80) provided with a heating apparatus (78a), and supplying a predetermined amount of plating solution to a plating treatment section (24) when carrying out plating treatment; a plating solution recovery system (72) for recovering the plating solution after the plating treatment in the plating treatment section (24), heating the plating solution and returning the heated plating solution to the circulation tank (80); and a plating solution replenishment system (74) for replenishing the circulation tank (80) with a fresh plating solution or a plating solution component.
Abstract:
The coating device (10) for coating a metal band (12,12null) in a melted metal mass (14) comprises a shaft (16,18) rotatably supported in the melted metal mass (14) by a slide bearing (261, 262), for guiding the metal band (12). The slide bearing (261, 262) is formed by a bearing housing (32) and an open bearing shell (34) held therein, with two bearing surfaces (36). Between the two bearing surfaces (36), the bearing shell (34) comprises a deformation zone (40) with a deformation element (44). With high radial forces of the shaft occurring, the two bearing shell halves (381, 382) are slightly spread. The flexible deformation zone ensures that the two bearing shell halves remain interconnected and cannot break in this area.
Abstract:
A method for forming a low k dielectric constant material over a substrate. According to one embodiment, the method includes combining, in a mixing apparatus fluidly coupled to a solution applicator, an organo silicate glass (OSG) precursor, a solvent and a surfactant with water and an acid catalyst to form a coating solution; aging the coating solution in the mixing apparatus to form an aged coating solution; transporting the aged coating solution to the solution applicator; and then applying the aged coating solution to the substrate with the applicator.
Abstract:
A system for processing a workpiece includes a base having a bowl or recess for holding a liquid. A process reactor or head holds a workpiece between an upper rotor and a lower rotor. A head lifter lowers the head holding the workpiece into contact with the liquid. The head spins the workpiece during or after contact with the liquid. The upper and lower rotors have side openings for loading and unloading a workpiece into the head. The rotors are axially moveable to align the side openings.