A golf ball material contains (i) fine particles that have an average particle size of less than 300 μm and are composed of a crosslinked multi-component copolymer having conjugated diene units, non-conjugated olefin units and aromatic vinyl units; and (ii) a thermoplastic resin. The conjugated diene units include butadiene units, the non-conjugated olefin units include units selected from the group consisting of ethylene, propylene and 1-butene units, the aromatic vinyl units include styrene units, and the content of the conjugated diene units in the multi-component copolymer is 5 wt % or more. This golf ball material is soft, has an excellent rebound resilience and also has a good processability.

The present invention relates to the field of automotive lamps, particularly a method for manufacturing a light emitting device (10) for use in automotive lamps. The method comprises: providing a base substrate (11) with a LED die (12) and one or more electrical components (13) attached thereon into a first mold; melting and injecting an optical transparent material over the LED die (12) to form an optical structure (14); removing the base substrate (11) from the first mold once the optical transparent material is partially solidified; providing the base substrate (11) into a second mold different from the first mold; and melting and injecting a thermally conductive material into the second mold while the optical transparent material is not fully solidified, such that an intimate connection is formed between the thermally conductive material and the optical transparent material. The present invention further discloses the light emitting device (10) per se.

A decorated molding article includes a workpiece and a composite layer structure. The composite layer structure is attached to an outer surface of the workpiece through an adhesive layer. The composite layer structure at least includes: a substrate having a first surface and a second surface opposite to each other; an optical effect layer disposed on the first surface of the substrate; and a decorative layer disposed between the first surface of the substrate and the optical effect layer. The decorative layer formed by a printing method has a thickness less than a thickness of the optical effect layer formed by a coating method, and the optical effect layer and the decorative layer each includes a protective material, an ink material, and an adhesive material. In such embodiment, the all-in-one coating material may be formed on the substrate by the coating method or the printing method to form the optical effect layer and the decorative layer with protective, color, and adhesive effects.

A suture for lifting is disclosed. The suture comprises: a medical fiber yarn; fixing parts formed at one side of the fiber yarn and fixable to the skin; and anchor parts protruding on an outer circumference of the fixing parts, wherein the anchor parts are integrally formed with the fiber yarn by a double injection.

An injection molded pourer for a pouch pack. The injection molded pourer includes an inner pouring channel having a pouring spout arranged at an upper end of the inner pouring channel and a boat-shaped weld-in portion which surrounds a lower end of the inner pouring channel, and an injection molding gate arranged on an outside. The pouring spout can be closed with a cap. The boat-shaped weld-in portion has boat-shaped ribs which are arranged parallel to one another and which have a gap there-between. A plastic melt can be pressed into the injection molding gate. The plastic melt includes a main plastic material, and a second plastic material which forms an oxygen barrier.

An injection molded pourer for a pouch pack. The injection molded pourer includes an inner pouring channel having a pouring spout arranged at an upper end of the inner pouring channel and a boat-shaped weld-in portion which surrounds a lower end of the inner pouring channel, and an injection molding gate arranged on an outside. The pouring spout can be closed with a cap. The boat-shaped weld-in portion has boat-shaped ribs which are arranged parallel to one another and which have a gap there-between. A plastic melt can be pressed into the injection molding gate. The plastic melt includes a main plastic material, and a second plastic material which forms an oxygen barrier.

A molded body for an electronic function includes a first film in which one surface thereof constitutes an external appearance surface, a second film in which an electronic component is mounted on a surface thereof facing a surface of the first film opposite to the external appearance surface, and a first resin that fills a space between the first film and the second film. The first resin has a cavity, and the cavity is filled with a second resin, and the electronic component is disposed in the cavity and surrounded by the second resin.

A display module is provided that includes a substrate and a molding part. The substrate includes a first surface disposed with a plurality of LEDs, and a second surface, opposite of the first surface, that is disposed with a plurality of chips connected to the plurality of LEDs and further disposed with a coupling body. The molding part covers the first surface and the plurality of LEDs, and has a shape corresponding to a shape of the plurality of LEDs.

A method produces a substrate shielded from electromagnetic radiation. The method includes i) providing a first polymer material (a) or a precursor thereof containing at least one conductive filler and at least a second polymer material (b) or precursor thereof; ii) obtaining a substrate by subjecting the first polymer material (a) or the precursor thereof and the second polymer material (b) or the precursor thereof to shaping with material bonding of the first polymer material (a) and the second polymer material (b), and polymerizing, if present, the precursors; and iii) at least partially surrounding an electronic component with the substrate obtained in step ii). A polymer component of the first polymer material (a) includes a thermoplastic elastomer or at least one thermoplastic elastomer, selected from the group consisting of, e.g., thermoplastic polyamide elastomers, thermoplastic copolyester elastomers, thermoplastic olefin-based elastomers, thermoplastic styrene block copolymers, polyether block amides, and mixtures thereof.

A reversibly detachable fluid-line coupling (1), at least having a coupling sleeve (2, 3), a locking element (7) and a coupling plug (8). The invention was based on the object of providing a fluid-line coupling (1) of the type described in the introduction that can be constructed from plastic while avoiding the stated difficulties. Said object is achieved in that the locking component (7) is in the form of a flat, open spring-steel ring (70) which has latching claws (72) projecting radially into the interior of the spring-steel ring (70) and distributed over the circumference of the spring-steel ring (70) and which has axially oriented support tongues (73), wherein, in the region of the coupling head (2), the locking component (7) resiliently surrounds the coupling head (2) in such a way that the latching claws (72) project into the interior of the coupling sleeve (2, 3) through the slots (20) in the coupling head (2) and the support tongues (73) of the spring-steel ring (70) correspond to the support webs (21) of the coupling head (2) in such a way that in each case one support tongue (73) is assigned to one support web (21).