A molded polymer article is disclosed which includes a first structural portion, a second structural portion, and a living hinge connecting the first structural portion and the second structural portion. Both structural portions and the living hinge are all integrally molded from a polymeric composition which includes: (1) from about 20 to about 95 weight percent of polyhydroxyalkanoates, (2) from about 5 to about 75 weight percent of a biodegradable polymer selected from the group consisting of polylactic acid, poly(butylene succinate), poly(butylene-succinate-co-adipate), poly(caprolactone), and poly(butylene adipate-co-terephthalate), (3) from about 0.01 to about 5.0 weight percent of a nucleating agent, and (4) from about 0.01 to about 5.0 weight percent of at least one mold processing aid, such as a mold release agent.

A method of forming and assembling a foldable plastic utility enclosure using molds to form sides of the enclosure, preferably using glass fiber-reinforced thermoplastic composite. The molds are constructed to form a central hole in hinge members which are formed on ends of the sides. The central hole of the hinge member is molded with two molding parts, wherein one or both of the molding parts have a solid central portion that forms the central hole. The sides are removed from the molds after curing and the sides are assembled to form the utility enclosure while the sides are still hot from the molding process. Hinge pins are inserted into the central holes of the hinge members to form hinges and to prevent the sides from warping during cooling. Assembling the sides and inserting hinge pins to form the utility enclosure is completed within approximately 10 minutes after removing the sides from the molds.

A method of producing a universal joint assembly. The method comprises providing a joining member for forming a universal joint, said joining member comprising a first pivot and a second pivot; applying continuous fibre reinforcement and a polymer matrix to a form including said joining member to create a single fibre-reinforced polymer structure in which the joining member is embedded; and splitting said single fibre-reinforced structure into a first fibre-reinforced polymer shaft and a second fibre-reinforced polymer shaft that are coupled together by the joining member to form a universal joint.

The present invention is directed to a 4-bar kinematic link component and method for forming the 4-bar kinematic link using a single rotary molding tool. The invention eliminates the need to form individual components of the bracket from several different tools, which will then requires additional assembly steps. The 4-bar kinematic link is formed from two different materials each having a different in mold shrinkage value. This allows for hinge pins to be formed through a base component in a way that will prevent sticking of the components together thereby allowing the parts to have it relative to one another using the hinge pin. The final component is a 4-bar kinematic link that can be used as a 4 bar link mechanism for providing motion.

A method of forming and assembling a foldable plastic utility enclosure using molds to form sides of the enclosure, preferably using glass fiber-reinforced thermoplastic composite. The molds are constructed to form a central hole in hinge members which are formed on ends of the sides. The central hole of the hinge member is molded with two molding parts, wherein one or both of the molding parts have a solid central portion that forms the central hole. The sides are removed from the molds after curing and the sides are assembled to form the utility enclosure while the sides are still hot from the molding process. Hinge pins are inserted into the central holes of the hinge members to form hinges and to prevent the sides from warping during cooling. Assembling the sides and inserting hinge pins to form the utility enclosure is completed within approximately 10 minutes after removing the sides from the molds.

A method of forming and assembling a foldable plastic utility enclosure using molds to form sides of the enclosure, preferably using glass fiber-reinforced thermoplastic composite. The molds are constructed to form a central hole in hinge members which are formed on ends of the sides. The central hole of the hinge member is molded with two molding parts, wherein one or both of the molding parts have a solid central portion that forms the central hole. The sides are removed from the molds after curing and the sides are assembled to form the utility enclosure while the sides are still hot from the molding process. Hinge pins are inserted into the central holes of the hinge members to form hinges and to prevent the sides from warping during cooling. Assembling the sides and inserting hinge pins to form the utility enclosure is completed within approximately 10 minutes after removing the sides from the molds.

A paint delivery tool or paint tray, suitable for use in a paint bucket, includes a paint roller grid mounted to a shelf that includes an auxiliary paint receptacle or cut bucket intended for separate use with a paint brush. The upper shelf includes a semicircular rim and lip for mounting the tool or paint tray to the top of a circular bucket. The paint roller grid extends from an opposite straight edge of the shelf and downward into the paint bucket. A paint roller and a paint brush can then be stored and used separately to reduce waste, messes and clean up. The paint roller grid and the shelf can be an integral one piece member, and they can be joined by a living hinge if molded as a plastic member.

The combination of 3D printing technology plus the additional dimension of transformation over time of the printed object is referred to herein as 4D printing technology. Particular arrangements of the additive manufacturing material(s) used in the 3D printing process can create a printed 3D object that transforms over time from a first, printed shape to a second, predetermined shape.

The present disclosure provides a plastic living hinge. The plastic living hinge includes a blend containing (A) an ethylene-based polymer; (B) a propylene-based polymer; and (C) a composite component selected from the group consisting of a block composite, a crystalline block composite, and a combination thereof.

A structural component for a floor assembly of a vehicle. The structural component is formed integrally and includes at least one hinge element and a base part. The base part is configured to support the structural component on the vehicle when the structural component is installed in the vehicle. The at least one hinge element includes at least one flap element which is connected at least in regions to the base part and is configured to be pivoted relative to the base part and, in an end position, to at least partially enclose at least one predetermined construction space of the vehicle. The at least one flap element is furthermore configured in order, in the end position, to abut or to engage in a form-fitting manner against or on respective vehicle elements delimiting the at least one construction space of the vehicle.