A decorative radome includes a first layer comprising a radio-transmissive polymer, the first layer having a front surface; a second layer comprising a radio-transmissive polymer, the second layer having a rear surface; and a decorative layer, between at least a portion of the first and second layer, comprising a layer of metal or an alloy comprising a metal and a metalloid. The second layer directly or indirectly abuts the decorative layer and is directly adhesion bound or indirectly connected to the first layer, wherein at least one of the first or second layers is comprised of a polymer formed by overmolding at a barrel nozzle temperature below 300 degrees Celsius.

The vehicle window member with the window frame includes: the vehicle-window-use transparent plate-shaped body; the window frame made of a thermoplastic resin arranged at a region including a peripheral edge part of at least one principle surface; a functional sol-gel layer arranged at one of principle surfaces of the plate-shaped body where the window frame is arranged and between the window frame and the plate-shaped body to be partially overlapped with an arrangement region of the window frame; a primer layer arranged at substantially the same region as the arrangement region of the window frame at the plate-shaped body side of the window frame to be adjacent to the window frame; and an overcoat layer arranged between the functional sol-gel layer and the primer layer to include a region where both are overlapped, and mainly constituted of an oxide of at least one selected from Si, Ti, Zr and Zn.

An embodiment change core module of an injection mold for a hydrogen tank liner that is injection molded is provided. The change core module includes upper and lower change cores configured to hold a sealless nozzle inside the injection mold, wherein the injection mold comprises upper and lower molds, and wherein the sealless nozzle has a first temperature, and an induction heating device configured to inductively heat the sealless nozzle to a second temperature.

A motor core manufacturing device includes: a mold that holds a motor core including a resin filling portion; a chamber communicating with a resin composition filling path, wherein the resin composition filling path is formed in the mold and has one end portion communicating with the resin filling portion; a plunger that conveys a resin composition conveyed to the chamber toward the resin composition filling path; a first heater that is disposed in the mold, or in the mold and around the chamber; and an extruding machine that conveys the resin composition while kneading the resin composition toward the chamber in order to put a previously measured amount of the resin composition into the chamber.

A current breaker for automotive safety systems has a separating punch and a conductor formed with at least one localized decrease in thickness constituting a weakened separating point severable by the separating punch. This current breaker is made by overmolding the conductor in a plastic-injection mold with an encapsulation by a method having a first step of forming the separating point of the conductor in the plastic-injection mold before or during overmolding and a second step of forming with the mold above and below the conductor in the encapsulation a passage fully exposing the separating point and dimensioned to hold the separating punch.

An apparatus for manufacturing catheter electrode-fPCB assemblies, the apparatus includes a tray, a heat source, and a sleeve molding station. The tray is configured to (i) receive an electrode in a designated first recess in a predefined layout of the recess, wherein the electrode is ring-shaped and (ii) receive a flexible printed circuit board (fPCB) strip in a second recess configured to enable to thread the fPCB strip via the electrode to a predefined position of the strip such that a pad patterned on the fPCB strip is aligned with the electrode. The heat source is configured to apply heat for soldering the pad to an inner surface of the electrode. The sleeve molding station is configured to mold an encapsulating sleeve over the electrode-fPCB assembly, while keeping a proximal end of the strip and at least a portion of the electrode exposed.

A structural reinforcement for an article including a carrier that includes: (i) a mass of polymeric material having an outer surface; and (ii) at least one consolidated fibrous insert having an outer surface and including at least one elongated fiber arrangement having a plurality of ordered fibers arranged in a predetermined manner. The fibrous insert is envisioned to adjoin the mass of the polymeric material in a predetermined location for carrying a predetermined load that is subjected upon the predetermined location (thereby effectively providing localized reinforcement to that predetermined location). The fibrous insert and the mass of polymeric material are of compatible materials, structures or both, for allowing the fibrous insert to be at least partially joined to the mass of the polymeric material. Disposed upon at least a portion of the carrier will be a mass of activatable material.