Three-dimensional objects are formed by photo-curing a liquid polymer by exposure to a radiation, which radiation (e.g., at 410 nm) is provided by a collimated light source composed of an array of light emitting diode (LED) sources, an array of baffles, and an array of lenses. The baffles limit beam widths of each individual LED source in the array of LED sources, and the array of lenses is located one focal length from said array of LED sources.

The present invention generally relates to a system and method for using a volatile organic compound (VOC) free low radiant flux LED UV curable composition, and more particularly to unique and novel uses of the composition such as one or two or more of a fire retardant, clear coat, composite material, resin, top coat, improved holdout coating, a sealant coat, and combinations of the same.

A method of lubricating an expandable rubber bladder is described for use during a vulcanization of a green tire within a metal press. The method can include applying compositions in the form of emulsions of silicone oils to the inner surface of the green tires and/or to the outer surface of the vulcanization bladders to facilitate the molding-demolding thereof during the manufacture of the tires.

A system is for making a molded article made of foamed material, including a die (1) composed of an upper section (11) and a lower section (12), separable and coupled to define a recess. A first suction (20) creates a vacuum to allow shaping a plastic film on the wall of a portion of the recess of the sections (11) and (12). A tensioner and lock (30) of the plastic film allow positioning and fastening the plastic film outside the recess.

Provided is a manufacturing method for a substrate having a microstructure. The manufacturing method for a substrate having a microstmcture comprises the steps of: forming a microstructure on the upper surface of an auxiliary substrate; coating a base solution on the microstructure; forming a base substrate covering the microstructure by heattreating the base solution; and removing the auxiliary substrate from the base substrate.

A fabrication process and apparatus for producing three-dimensional objects by depositing a first polymer layer, printing a first ink layer on to the first polymer layer, depositing a second polymer layer on to the first ink layer, and printing a second ink layer on to the second polymer layer. The deposition and printing steps may be repeated until a three-dimensional object is formed. The inks used to form at least one of the first and second ink layers may include dyes or pigments so that the three-dimensional object may be a colored three-dimensional object.

A method for sealing a fastener employs a mold which provided with an inlet port for molding material. The mold is then positioned over a fastener and the mold is sealed against a structure. A moisture cured polyurethane reactive adhesive (MCRPA) as a molding material is then heated and injected into the mold. Upon solidification of the MCRPA, the mold is then removed to expose the MCRPA to atmospheric moisture and cured to leave an in-situ molded cap formed over the fastener and sealed to the structure.

A pattern forming method includes: preparing a pattern paper comprising a fiber where a pattern to be formed is formed; impregnating the pattern paper with a releasing agent; and forming the pattern on a pattern forming target by arranging the pattern paper on a mold comprising an upper mold and a lower mold, and adhering the pattern paper to the pattern forming target by using the mold.

A process of manufacturing a foam molded article includes opening an open-closed molding system; applying a release agent into a female cavity section of the molding system; injecting PU into the female cavity section; closing the molding system; placing the closed molding system in a foaming device; activating the foaming device to heat the PU; forming a plurality of interconnecting first air pockets in an air permeable foam core of a foam molded article to be formed; forming a plurality of interconnecting second air pockets in each of a top surface and a bottom surface of the foam molded article respectively by involving a chemical reaction with the release agent wherein the second air pockets are in air communication with the first air pockets; opening the molding system; and removing the finished foam molded article from the molding system.

Provided is a manufacturing method for a substrate having a microstructure. The manufacturing method for a substrate having a microstructure comprises the steps of: forming a microstructure on the upper surface of an auxiliary substrate; coating a base solution on the microstructure; forming a base substrate covering the microstructure by heat treating the base solution; and removing the auxiliary substrate from the base substrate.