The method for producing a member for applying a cosmetic product comprising: an application portion (3); a longitudinal core (5), housed in the application portion (3);
the method comprising the following successive steps: a first step for injecting the application portion (3) into a cavity (29) of a mold (27); a second step for injecting the longitudinal core (5) into the cavity (29) of the mold (27). In the first step, a pin (31) is arranged in the cavity (29) and in the second step, the pin (31) is moved relative to the cavity (29), and the longitudinal core (5) is injected into a space (47) freed up by the pin (31).

A method of manufacturing a slim foam pad for vehicle seats, may include injecting a first foam solution into a first mold to manufacture an upper pad; inserting the manufactured upper pad into a second mold; and injecting a second foam solution to a first surface of the upper pad inserted into the second mold to manufacture a lower pad integrally coupled to the upper pad, wherein the second foam solution is foamed in a state of being in direct contact with the first surface of the upper pad, wherein no additional border separation member is provided at a border between the upper pad and the lower pad.

An aspect of the invention is directed to a method for producing a connector using injection-molding by providing at least one conductor and at least one contact pin which are electrically connected at a contact point, producing a thermoset premold from a thermoset using injection-molding, wherein the thermoset is injection-molded around at least a first section of the at least one conductor and/or around at least a second section of the at least one contact pin, and injection-molding of a thermoplast on the thermoset premold, wherein the step of injection-molding takes place before the thermoset premold has obtained a degree of curing of 90%. Another aspect of the invention is a connector comprising at least one conductor and at least one contact pin is disclosed.

An aspect of the invention is directed to a method for producing a connector using injection-molding by providing at least one conductor and at least one contact pin which are electrically connected at a contact point, producing a thermoset premold from a thermoset using injection-molding, wherein the thermoset is injection-molded around at least a first section of the at least one conductor and/or around at least a second section of the at least one contact pin, and injection-molding of a thermoplast on the thermoset premold, wherein the step of injection-molding takes place before the thermoset premold has obtained a degree of curing of 90%. Another aspect of the invention is a connector comprising at least one conductor and at least one contact pin is disclosed.

Provided is a panel, an article including such a panel and method of its manufacture, where the panel includes a base layer having a first face and a second face, integrally sandwiched between a first exterior layer applied over the first face, and a second exterior layer applied over the second face. In addition, the bulging portions of the base layer projecting from the first face and the second face are exposed through respective openings at the first exterior layer and the second exterior layer, extending in register with said bulging portions.

An aspect of the invention is directed to a method for producing a connector using injection-molding by providing at least one conductor and at least one contact pin which are electrically connected at a contact point, producing a thermoset premold from a thermoset using injection-molding, wherein the thermoset is injection-molded around at least a first section of the at least one conductor and/or around at least a second section of the at least one contact pin, and injection-molding of a thermoplast on the thermoset premold, wherein the step of injection-molding takes place before the thermoset premold has obtained a degree of curing of 90%. Another aspect of the invention is a connector comprising at least one conductor and at least one contact pin is disclosed.

The disclosure includes a cap having a first portion made of a plastic material and forming a bottom for covering a container neck and a protective side wall for surrounding the container neck, and a second portion made of a flexible material that is compatible with the plastic material of the first portion and separate from the plastic material of the first portion, the second portion being annular and consisting of a flexible seal, which projects from the bottom toward the interior of the side wall and which is welded to the first portion. Thus, the manufacture of the stopper by molding includes injecting a flexible material to produce the flexible annular seal and then the movable portions of the mold are placed such that the flexible material is in a groove that is set back from the planar surface of the mold.

A plastic reflective waveguide is manufactured using a soft transfer stamp formed in a first mold using a liquid injection molding process to provide the stamp with parallel wall surfaces having a zero degree draft angle. The soft transfer stamp is placed as an insert in a second mold utilized in a multi-stage thermoplastic injection molding process. A first thermoplastic injection molding stage molds a base part of the plastic reflective waveguide having parallel wall surfaces with a zero degree draft angle. The soft transfer stamp is removed from the second mold and a partially-reflective coating is applied to the base part. A second thermoplastic injection molding stage is utilized to create a secondary part of the plastic reflective waveguide. The raw plastic reflective waveguide is ejected from the second mold and subjected to additional manufacturing processes to realize a finished part meeting design requirements for size and form factor.

An image recording system, for example of a motor vehicle, includes a carrier plate, an optics holder with a through hole of which one side is closed by a surface of the carrier plate, and an image recorder situated on the carrier plate surface, a needle channel that extends through the optics holder from the through hole to an outer side of the optics holder and that is suitable for, after the optics holder has been manufactured, injection molding of an encapsulation that forms an optical lens of the image recorder without having to protect a surface of the encapsulation during the manufacturing of the optics holder. Manufacturing of a microstructured protective lens directly after manufacturing of the optics holder on the same injection mold is thus enabled.

An elongated core comprising a nylon or polypropylene is extruded. An interdental cleaner portion, comprising fingers, is injection molded about a first portion of the core. The interdental cleaner portion has thermoplastic elastomer. A handle portion is injection molded about a second portion of the core. The handle portion has polypropylene.