The present invention provides a continuous method for producing a fiber-reinforced semi-finished plate. The present invention also provides a device for carrying out the continuous method for producing a fiber-reinforced semi-finished plate. The present invention provides the fiber-reinforced semi-finished plate.

The present disclosure is drawn to a composite particulate build material, including 92 wt % to 99.5 wt % polymeric particles having an average size from 10 m to 150 m and an average aspect ratio of less than 2:1. The composite particulate build material further includes from 0.5 wt % to 8 wt % reinforcing particles having an average size of 0.1 m to 20 m and an average aspect ratio of 3:1 to 100:1 applied to a surface of the polymeric particles.

A composite floor comprises a coextrusion layer compression moulded using a coextrusion process. The layer comprises a first stone-plastic layer, a stone-plastic foaming layer, and a second stone-plastic layer sequentially arranged from top to bottom. The stone-plastic foaming layer is used as the main material layer, which reduces a whole weight of the floor; and the first stone-plastic layer and the second stone-plastic layer are arranged at two sides of the stone-plastic foaming layer, respectively, so that the composite floor is more stable. It is more environmentally friendly and simple in manufacturing to use the coextrusion process for compression moulding by avoiding bonding using glue. Use of the coextrusion process makes various layers bond more compact, with little delamination and warpage due to effect of environmental changes. The composite floor has a low expansion rate and shrinkage rate, excellent in performance and long in service life.

A method of forming a component for a vehicle according to an exemplary aspect of the present disclosure includes, among other things, forming the component of an ultra-high-molecular-weight-polyethylene (UHMWPE) and a stiffening filler. A bracket and a running board assembly are also disclosed.

A method of making a panel assembly that includes forming a thermoplastic panel, placing a thermoset portion into a pocket in a mold, placing an attachment member into the pocket in the mold, positioning the thermoplastic panel in the mold, cooling the thermoplastic panel while heating the thermoset portion to flow at least a portion of the thermoset portion into openings defined in the thermoplastic panel, and cooling the panel assembly so that the thermoset portion hardens, thereby securing the attachment member to the thermoplastic panel.

A method of making a panel assembly that includes forming a thermoplastic panel, placing a thermoset portion into a pocket in a mold, placing an attachment member into the pocket in the mold, positioning the thermoplastic panel in the mold, cooling the thermoplastic panel while heating the thermoset portion to flow at least a portion of the thermoset portion into openings defined in the thermoplastic panel, and cooling the panel assembly so that the thermoset portion hardens, thereby securing the attachment member to the thermoplastic panel.

The present technology discloses methods for joining a first workpiece and a second workpiece through a heat stake, and products formed thereby. The first workpiece has an aperture configured to receive a stud positioned on a second workpiece. The system is formed by applying energy to the first workpiece using electrodes, which indirectly heats the stud, at least partially softening material of the stud. Pressure is then applied to the softened material of the stud, and causing the material to form according to a predetermined geometry. After pressure is released, the stud forms a stake forming an interlocked joint connecting the workpieces.

The present technology discloses methods for joining a first workpiece and a second workpiece through a heat stake, and products formed thereby. The first workpiece has an aperture configured to receive a stud positioned on a second workpiece. The system is formed by applying energy to the first workpiece using electrodes, which indirectly heats the stud, at least partially softening material of the stud. Pressure is then applied to the softened material of the stud, and causing the material to form according to a predetermined geometry. After pressure is released, the stud forms a stake forming an interlocked joint connecting the workpieces.

A decorative article comprising a base and a top layer disposed thereon. The base may comprise a first surface, a second surface opposite the first, a side surface disposed between the first and second surfaces, and angled surfaces along at least two of the edges of the first surface. The angled surfaces extend from the first surface and towards the second surface. Each angled surface may comprise at least one of a curved portion and a linear portion extending from the curved portion. The base can include a male connector portion extending from one side surface and a female connector portion formed in the opposing side surface, wherein the male and female connector portions are configured to interconnect. The top layer may comprise a decor layer that further comprises a sub layer, an ink layer, and a wear layer disposed above the ink layer.

The present disclosure is drawn to a composite particulate build material, including 92 wt % to 99.5 wt % polymeric particles having an average size from 10 ?m to 150 ?m and an average aspect ratio of less than 2:1. The composite particulate build material further includes from 0.5 wt % to 8 wt % reinforcing particles having an average size of 0.1 ?m to 20 ?m and an average aspect ratio of 3:1 to 100:1 applied to surfaces of the polymeric particles, wherein the reinforcing particles include mica or glass.