The present application relates to a decoration member including a substrate layer having a convex structure or a concave structure arranged two-dimensionally, and a method for preparing the decoration member.

A lure includes one or more cores having a surface shape and coloration configured to represent an anatomy of a food for a game fish with one or more outer portions of translucent material disposed thereabout. The outer portion is at least partially flexible with one or more outer fins and/or tails configured to cause the lure to move through water in conformance with a mode of transit. The core presents a three-dimensional appearance of a schooling baitfish, a bottom baitfish, a crustacean, an amphibian, a worm, a grub, an insect, a spider, a leech, or another creature that is attractive to fish. The core may include a surface shape and/or coloration that represents a mouth, an eye, a fin, and/or one or more gills or opercles. The core may be formed around a rigid object such as a hook, a line leader, or a weight.

There is provided a badge adapted for a vehicle that includes a first portion formed from a first injection molded process of light transmissive material and a second portion formed from a second injection molded process of plateable material. The plateable portion provides a chrome exterior of trim. The first portion provides a light-through decoration where the light transmissive material is back lit with at least one lighting element.

A present application relates to a dispensing component for use with an urn liner. The dispensing component includes a spout formed of a polyethylene material and a flexible tube formed of a thermoplastic elastomer material. The spout and tube are formed together as a single component in a mold by co-injection of the polyethylene material and the thermoplastic elastomer material.

A closure (750) is provided and comprises a top plate (755) and a sidewall (760) depending from the periphery of the top plate. The closure includes a sealing member (765) which depends from the top plate within the sidewall. The top plate includes a foamed region which is restricted to being within a boundary defined by the sealing member; the sealing member being substantially unfoamed.

This method for manufacturing a resin structure (1) is provided with: a step for arranging a sheet (30) having a smooth surface (31) having a maximum height roughness of 3 m or less, inside a forming mold (40) such that the smooth surface (31) faces an internal space (44) of the forming mold (40); a step for molding a resin molded body (10) to which the sheet (30) is adhered, by filling the internal space (44) with a resin; a step for separating the resin molded body (10) from the sheet (30), thereby forming a first region (11) having a maximum height roughness of 3 m or less on at least a portion of the surface of the resin molded body (10); and a step for using a fluid conductive ink to form a wiring (20) on the first region (11).

The present application relates to a decoration member including a pattern layer provided on one surface of the substrate and including a convex structure or a concave structure arranged two-dimensionally, and a method for preparing the decoration member.

A method for manufacturing an integrated multilayer structure for sensing applications, including obtaining at least one film including a sensing area; arranging the at least one film with reactance sensing electronics for sensing of one or more selected target quantities or qualities and conversion thereof into representative electrical signals, said sensing electronics including at least one sensing element and an electrical connection configured to connect the sensing element to an associated control circuitry; and molding or casting, and configuring, at least one plastic layer so that the plastic layer defines an integrated, intermediate layer between the sensing electronics and the sensing area and that the sensing area is superimposed with the sensing element of the sensing electronics, wherein it is further provided at least one physical feature to locally reduce the electrical distance between the sensing area and the sensing element to improve the associated sensing sensitivity.

An integrated multilayer structure for use in sensing applications and a method of manufacture are presented. The multilayer structure includes at least one molded or cast plastic layer and a film layer on both first and second sides of said plastic layer. The film layer on the first side of said plastic layer is provided with reactance sensing electronics. The sensing electronics includes at least one sensing element and an electrical connection for connecting the sensing element to an associated control circuitry. The film layer on the second side of the plastic layer has a sensing area superimposed with the sensing element of the sensing electronics. The electrical distance between the film layer on the second side of the plastic layer and the sensing element are locally reduced by a physical feature at the position of the sensing area of the film layer to improve the associated sensing sensitivity.

A method for producing a trim part (1) with a visible side (S) for use in vehicles has steps of producing a support substrate (2) from a fiber composite material. The fiber composite material is injected into a mold cavity of an injection mold. A surface is formed on a first side of the support substrate (2) that faces the visible side (S) of the trim part (1). A lacquer layer (3) is formed by directly coating the surface of the support substrate (2). The lacquer layer (3) is coated with a protective layer (4).