The present disclosure provides a case, a preparation method thereof and an electronic product. The case includes a glass cover plate, a plastic frame body and a metal substrate frame, where the glass cover plate, the plastic frame body and the metal substrate frame are sequentially bonded without steps. The method includes: (1) coating an edge of a glass cover plate with a first activator, and then drying; and (2) bonding the glass cover plate obtained in step (1) with a metal substrate frame by injection molding.

A process is for manufacturing a complex motor vehicle glazing including a glass pane, an elastomer seal and a metal insert overmolded by the elastomer seal. The process includes inserting an edge of a glass pane and a metal insert into an encapsulation mold forming a leaktight cavity around the edge of the glass pane, filling the leaktight cavity containing the edge of the glass pane and the metal insert, by injecting an encapsulation composition including a polypropylene (PP)/thermoplastic elastomer (TPE) compound in the molten state, cooling the encapsulation composition to form an elastomer seal in which the metal insert is integrated, and releasing the elastomer seal from the mold. The PP/TPE compound includes from 30% to 80% by weight of polypropylene (PP) and the metal insert is covered over its entire surface liable to come into contact with the encapsulation composition, with a polypropylene coating.

An injection mold for encapsulating a substrate comprises a lower mold component and an upper mold component adapted to form an encapsulation mold at an edge of the substrate when the upper mold component engages the lower mold component. The lower mold component comprises a substrate support and wherein the upper mold component comprises a recess. The injection mold includes a tiltable insert sized and shaped to slide within the recess to form a seal for the encapsulation mold, the insert having a substrate-contacting surface defining an area of the substrate contacted by the insert. The injection mold includes a plurality of pressure-exerting actuators connected to the tiltable insert and each being configured to independently apply pressure on the substrate via the insert, wherein the plurality of pressure-exerting actuators are adapted to equilibrate a total predetermined pressure exerted by the insert substantially evenly across the area of the substrate-contacting surface.

Embodiments of a vehicle interior system and methods for forming the same are disclosed. A glass substrate is bent to a curved shape within a mold cavity, and a liquid polymer material is delivered to the mold and is in contact with the curved glass substrate. The liquid polymer is solidified to form a polymer frame that engages the bent glass substrate, and the engagement between the frame and the glass substrate holds the glass substrate in the bent shape. The temperature of the glass substrate during the bending process and formation of the frame are maintained below the glass transition temperature of the glass substrate.

A vehicle roof glass element having an exterior glass pane and a transparent insulating layer foamed on the inside onto the glass pane has an externally circumferential rim the runner points and the ventilation points of which are provided on the inside of the glass pane. Furthermore, a method and a tool for manufacturing a vehicle roof glass element are described.

A vehicular slider window assembly includes at least one fixed window panel having an opening, and upper and lower rails fixedly disposed at the at least one fixed window panel. A movable window panel is movable along the rails between a closed position and an opened position. A perimeter seal is disposed at a surface of the fixed window panel, with the perimeter seal providing a continuous sealing element that circumscribes the opening and that is configured to seal against a surface of the movable window panel when the movable window panel is closed. The perimeter seal includes elongated sealing portions having respective elongated sealing lips disposed along respective base portions. The perimeter seal is formed via a multi-shot injection molding process, with the base portions formed via a first shot injection molding process and the sealing lips formed along the base portions via a second shot injection molding process.

An optical device includes: a transparent substrate and a coherent transparent layer enclosing the substrate in at least three places, which: forms a plurality of first optical lenses on a first surface and forms a plurality of second optical lenses on a second surface of the substrate arranged opposite the first surface, the transparent layer having a predetermined thickness. A method of manufacturing the optical device is also provided.

In some implementations of the present disclosure, a frame and a surface panel having a panel body, which is a glass plate, are integrated together by a insert molding method. The frame is formed from an elastomer. An inner-surface tight-contact surface formed as part of an inner surface support portion of the frame has a tight-contact edge portion positioned on the same side as the center of the surface panel. The tight-contact edge portion is formed at a position at which the tight-contact edge portion overlaps both a decorative layer and an adhesion functional resin layer. As a result, it is possible to restrain stress from being exerted directly on the decorative layer from the tight-contact edge portion.

A method for manufacturing a molded vehicle trim element including the following steps: (i) providing a carrier plate in a mold for injection molding including a mobile core of the mold and cavity of the mold to give the final shape of the vehicle trim element, (ii) providing a glass panel in the mold having at least a first region to be bent, (iii) cold bending the glass panel inside the mold in a requested shape, (iv) injecting a soft material to form the vehicle trim element made of bent carrier plate and glass panel fixed together via the molding material, and (v) removing the vehicle trim element from the mold.

A process for producing a plate-like body with a resin frame having a decorative molding, wherein the decorative molding includes a main part and a film formed on a surface and has a design part exposed on a surface of the resin frame and an embedded part in the resin frame. The film continuously covers the design part and the embedded part. The process includes a step of mounting the decorative molding on a mold for forming the resin frame and further mounting a plate-like body, and a step of injecting a molten resin into a cavity of the mold and forming a resin frame with the decorative molding thereon into a window glass while a film at a portion located at a boundary between the design part and the embedded part is pressed against the mold by an injection pressure of the molten resin and thermally deformed.