A plastic glazing of a tailgate of a vehicle is provided, the plastic glazing comprising: a first translucent component comprising a full panel of the plastic glazing; a second translucent component molded onto the first translucent component, wherein the second translucent component is a colored thermoplastic polymer, wherein the plastic glazing is of one-piece molded plastic construction, wherein at least one of the first translucent component and the second translucent component comprises one or more aerodynamic features, wherein the one or more aerodynamic features are each configured to reduce one or more of: a turbulence, a drag force, and a lift force.

An article includes at least first and second members. A decorative object is within the second member. Interlocking features are adapted to removably interlock the first and second members together. The interlocking features include a channel and a rail that are complementarily shaped so that the rail is receivable within the channel to removably interlock the rail with the channel. At least the second member is formed of a translucent or transparent material so that the decorative object within the second member is visible through the member.

In one example embodiment, a film includes a coextruded structure having both an extruded ribbed skin layer that includes a plurality of ribs, and a core layer. The ribs are spaced apart by a web that is integral with the ribs. The film also includes a voiding agent in the ribs of the skin layer.

A molded part can comprise a backing and a decorative layer. The decorative layer has a back side facing the backing and a visible front side. A transparent or translucent layer is provided on the front side of the decorative layer, with a light source being provided about the molded part. An optical fiber can be connected to the light source on the visible, front side of the decorative layer. The optical fiber(s) can run parallel to the front side of the decorative layer in one or more grooves in at least some sections on the front side of the decorative layer. The optical fiber(s) may be formed by a transparent or translucent filler material introduced into the groove(s), the refractive index of the filler material being greater than the refractive index of the high-gloss layer. Implementations further include a method of making the same.

A vaporizer cartridge is described that is configured for coupling to a vaporizer device body and containing a vaporizable material. Various embodiments of the vaporizer cartridge are described that include one or more features for maximizing a reservoir volume within the vaporizer cartridge for the containing of vaporizable material thereby increasing the output of vaporized vaporizable material from a compact cartridge configuration. Additionally, associated methods of manufacturing are described.

A method of making an iridescent, vehicular trim assembly is provided that includes: molding a polymeric base comprising an exterior surface; and over-molding an element over at least a portion of the exterior surface. The element comprises a polymeric, translucent material and an exterior surface with an integral diffraction grating having a thickness from 250 to 1000 nm and a period from 50 nanometers to 5 microns. Further, the molding can be conducted such that the polymeric base is molded with a tint. The method can also include forming a plated region over the exterior surface of the base. In addition, the method can also include cleaning the plated region with a plasma-etching process before the over-molding.

The present invention is related to translucent building elements, and more specifically to their manufacture. The present invention comprises a method for the manufacture of an insulating core element for a translucent building element, an insulating core element for a translucent building element, a method for the manufacture of a translucent building element, a translucent building element, a method for the manufacture of a translucent building wall, a translucent building wall, and a method for the manufacture of a multiple of stacked rows of elongated light-conducting elements for an insulating core element.

A molding apparatus and method operation for making a molded part are provided. The molding apparatus includes a mold core extending between a generally flat lower surface and an upper surface defining a runner, a fan gate, and a part cavity for forming the molded part. The mold core includes an inner surface defining a plunger cavity extending into the mold core from the upper surface and having a uniform cross-section parallel to the upper surface and open to the gate. A plunger is slidably disposed within the plunger cavity for pulling material from the gate into the plunger cavity. A first pin extends through a first bore in the mold core to move the plunger within the plunger cavity. A hydraulic cylinder interacts with an ejector plate to move the first pin. A second pin also extends through the mold core and is movable perpendicular to the upper surface.

A hybrid component is provided for automotive applications, and includes a sheet metal component and at least one plastic support component. The at least one plastic support component is positively connected to the sheet metal component. A decor section of the sheet metal component includes a colour coating pattern generating a dedicated aesthetic design appeal.

A transparent polyester film has low visible light transmittance of 5-50% by JIS K7705 testing standard and a high infrared-blocking rate of at least 90% by JIS R3106 testing standard, which is extruded from a kind of polyester resins obtained from 5-40 wt % of nanoparticle-based thermal insulation slurry and/or 0.005-0.1 wt % of nanoparticle-based black pigment slurry by weight of and to react with the polymerization materials to completely perform an esterification and a polycondensation, wherein the thermal insulation nanoparticle has a chemical formula of Cs.sub.XN.sub.YWO.sub.3-ZCl.sub.C with an average particle size of 10-90 nm and the nanoparticle-based black contains carbon black particles having a particle size of 20-80 nm.