Abstract: A device for producing tubes for packaging tubes, comprising an elongated mandrel (3), around which a substrate web can be formed in order to produce a tubular form (4) that surrounds the mandrel (3) and can be conveyed along the mandrel (3) in a conveying direction (R), as well as welding means (9) for welding the substrate web along a welding region in order to produce a welding seam (11) and at least one first welding belt (34) that can be conveyed together with the tubular form (4) and fixes the tubular form in a contact region of the substrate web with itself by clamping the substrate web between the first welding belt (34) and a clamping partner, wherein means (13) are provided for expanding the tubular form (4) fixed by the first welding belt (34) and the clamping partner by plastically elongating the substrate web in the circumferential direction, wherein said means can be adjusted into a position, in which they radially protrude over the outer surface (14) of the mandrel section (31) of the mandrel (

Abstract: A continuous preform device for a composite stringer continuously preforms the composite stringer having three-dimensional curved surfaces in an efficient manner, the continuous preform device including a dispenser device 200 adapted to supply a prepreg laminate to a next process by sandwiching upper and lower faces of the prepreg laminate with carrier films, a section preform device 300 adapted to form the prepreg laminate sandwiched between the carrier films into a desired cross-sectional shape during passage, a press/puller device 400 adapted to apply a pressing process to the prepreg laminate and intermittently feed a composite downstream, and a curing mold forming device 500 adapted to preform the prepreg laminate into a desired stringer shape on a curing mold 20, which are placed in a straight line from upstream to downstream.

Abstract: Provided is a system and method of making a door having first and second door skins and an internal frame. The top and bottom surfaces of the frame are coated with an adhesive and the frame is placed on a first door skin. The second door skin is then placed on the opposite surface of the frame. The assembled components are then pressed to bond the first and second door skins to the frame with a press having upper and lower dies configured to impart a larger compression force toward a central area of the door skins. Wear resistant belts or membranes are provided to protect the door skins from being marred by the upper and lower dies during the pressing process.

Abstract: A method of manufacturing an interior component for a vehicle interior. The method involves laminating, in a laminating mold, a foam laminate onto a dimensionally stable substrate with a three-dimensional surface contour. The method includes providing the substrate, applying the foam laminate onto the three-dimensional surface contour of the substrate by way of a vacuum, and bonding the substrate to the foam laminate.

Abstract: An example laminate assembly pressurization arrangement includes a plurality of laminations arranged in a laminate stack. The plurality of laminations are movable between sealed positions and unsealed positions relative to each other. An end plate is adjacent the laminate stack. A housing is configured to establish a first volume together with the end plate. A first group of tie rods is directly secured to the end plate and is configured to move the end plate to a first position that holds the plurality of laminations in sealed positions. A second group of tie rods is directly secured to the housing. Pressurizing the first volume limits movement of the end plate away from the first position.

Abstract: A medical balloon catheter including a catheter shaft and an inflatable balloon secured to a distal portion of the catheter shaft. One or more cutting blades are secured to the inflatable balloon by a first polymeric adhesive material forming a mounting pad encasing a base portion of the cutting blade therein, and a second polymeric adhesive material adhesively bonding the mounting pad to a surface of the balloon. The first polymeric adhesive material has a first ductility and the second polymeric adhesive material has a second ductility greater than the first ductility.

Abstract: Disclosed is a process for manufacturing composite material products, having the following operating steps: molding at least one main component made of a composite material and one or more secondary components made of a composite material by means of one or more main molds and one or more secondary molds, respectively; arranging one or more intermediate substrates of fibers, in particular carbon fibers, pre-impregnated with a resin, between the main component and/or the secondary components in a molding assembly comprising at least one main mold and/or one or more secondary molds; curing the resin of the intermediate substrates in the molding assembly, so that the main component and the secondary components are joined to each other through the intermediate substrates. The present invention also relates to a system which can be used in such process.

Abstract: A molded resin product includes a substrate made of a transparent resin, opaque coating film disposed on rear surface of the substrate except for an area set aside for a patterned portion, a transparent resin material disposed in the area set aside for the patterned portion on the rear surface of the substrate, and an opaque reflection coating or a half-reflective coating laminated to the transparent resin material. Under this configuration, the patterned portion looks as if it pops up from the rear surface of the substrate. If a half-reflective coating is used, the pattern is visible through the half-reflective coating when the pattern is viewed from the rear surface of the lid of a molded resin product.

Abstract: A seal molding system may include a mold body having a mold inner geometry formed complementary to a fitting outer geometry of a fitting. The mold body may have a mold base formed complementary to a panel surface. The mold body may include an injection hole for injecting sealant into the mold cavity, and a vent hole for venting air and sealant from the mold cavity.

Abstract: A method for manufacturing a carbon fiber rim is disclosed, which includes: preparing a carbon fiber composite material and a thermosetting resin-based composite material; preparing a mold to place the carbon fiber composite material into the mold so that the carbon fiber composite material forms a pre-molded rim according to the shape of the mold, and then annularly affixing the thermosetting resin-based composite material respectively to brake surfaces on both sides of the pre-molded rim, so as to form a brake layer; placing the pre-molded rim into the mold to integrally form a rim by means of heat and pressure; and taking out the rim having the brake layer on the surface.

Abstract: A mandrel used to cure a composite part layup has an elastic body and at least one internal open space therein. The internal open space is configured to allow substantially uniform thermal expansion of the body during curing.

Abstract: A mold for molding a UV cured article in an inner volume thereof, the mold including a mold wall surrounding the inner volume, the mold including a UV-transparent polymer and UV radiation deflecting particles immersed in or adhered to a surface of the mold wall. Also provided is an apparatus including the mold and a process for molding a UV cured article.

Abstract: This invention discloses methods and apparatus for providing a media insert with an energy source to an ophthalmic lens. The energy source is capable of powering a component included within the ophthalmic lens. In some embodiments, an ophthalmic lens is cast molded from a silicone hydrogel and the component includes an electro-optical lens portion.

Abstract: Method of mass producing a flexible portable electronic device capable of at least processing information, the method including the steps consisting in passing a first impermeable plastic strip through an overmolding station in which the first impermeable plastic strip is overmolded using a plastic material, the method further including the steps consisting in passing a second impermeable plastic strip with a bottom surface facing upwards, in succession: through a printing station in which the second impermeable plastic strip receives, on the bottom surface thereof, at least one decorative ink; through an assembly station in which the second impermeable plastic strip receives, in various places on the bottom surface thereof, the electronic assemblies for processing information, joining and welding the first overmolded impermeable plastic strip to the second decorated impermeable plastic strip, and then in cutting out and releasing the portable electronic devices.

Abstract: In a manufacturing method for a glass panel with a gasket, an elastic member is placed on a table, and a multilayer glass panel is placed thereupon. A die is pressed against a top surface of the multilayer glass panel, thereby compressing the elastic member and glazing gasket molding material together with adhesive ejected from the application nozzle and applied to the top surface of the multilayer glass panel.

Abstract: A large cylindrically tubular molded part is made by assembling a plurality of inner segments into a tubularly cylindrical mold inner part having an outer surface centered on an axis and then juxtaposing reinforcing fibers with the outer surface. Then a plurality of outer segments are assembled into a tubularly cylindrical mold outer part coaxial with the mold inner part and having an inner surface radially confronting the outer surface of the inner part and forming therewith a mold cavity containing the reinforcing fibers. Multiple turns of prestressing cables are then wound under tension around the outer mold part to press the outer segments angularly together and the cavity is with a hard-curing plastic that is cured in the cavity to form the molded part reinforced with the reinforcing fibers. The inner segments are radially inwardly and the outer segments radially outwardly retracted then to demold the molded part.

Abstract: The present invention discloses an assembly and process for creating a co-extruded pipe which includes the steps of extruding a first elongated component exhibiting an open interior. Additional process steps include co-extruding at least one, and typically a pair, of additional elongated components each having an arcuate or lobe cross sectional shape or profile. The additional components are bonded to exterior locations of the first component to establish a pair of additional open interiors between the components and prior to cooling and hardening.

Abstract: Apparatus and methods are disclosed for manufacture of a composite rotor blade spar having non-uniform wall thickness. Tooling for manufacturing include a first mold defining a first mold surface and a second mold comprising a rigid layer and a heated layer secured to the rigid layer and defining a second mold surface. A plurality of heating elements embedded in the second mold are activated according to a plurality of different temperature progressions effective to cure portions of the uncured composite blade spar positioned between the first and second mold surfaces coextensive with each heating element of the plurality of heating elements. In some embodiments, the second mold defines a root portion and first and second branch portions. A shear web is placed between the first and second branch portions and is bonded to a blade spar skin surrounding the second mold during curing of the blade spar skin.

Abstract: A kit and method is disclosed to facilitate the transferring of a prosthetic appliance to the skin of a wearer. The kit includes first and second transfer portions, which may be provided in combined form. The first transfer portion includes a prosthetic appliance and a release film. The second transfer portion includes a transfer substrate, an adhesive layer and a release coat therebetween. The second transfer portion may include a seal layer disposed between the adhesive layer and the release coat. The kit may include a package portion which may non-adhesively restrain the other components so as to protect and display the prosthetic while enabling the package portion to be opened without causing damage to the remainder of the kit. A method for producing the kit is disclosed and involves the use of a cavity mold and respective retainer plate to produce the requisite transfer portions.

Abstract: Discussed are a roll mold, a method for fabricating the same and a method for fabricating a thin film pattern using the same, to prevent dimensional variation of the mold and simplify the overall process. The method for fabricating a roll mold includes providing a substrate provided with a master pattern layer, sequentially forming a mold surface layer and a solid suffer layer on the substrate provided with the master pattern layer to provide a flat panel mold, forming an adhesive resin layer on the base roller aligned on the flat panel mold, and rolling the base roller provided with the adhesive resin layer over the flat panel mold to adhere the flat panel mold to the base roller through the adhesive resin layer.