A component arrangement having a first component and a second component is provided. At least one component has a plurality of preforms, wherein the plurality of preforms of the first component overlap a preform of a second component in the connecting region of the two components.

A component arrangement having a first component and a second component is provided. At least one component has a plurality of preforms, wherein the plurality of preforms of the first component overlap a preform of a second component in the connecting region of the two components.

The present invention discloses a plastic composition, a composite floor including the plastic composition and a preparation method thereof. The plastic composition is prepared from the following components in parts by weight: 30-55 parts of polyvinyl chloride, 35-55 parts of limestone powder, 0.5-5 parts of polyurethane foaming agent and 0.5-5 parts of stabilizer. The composite floor includes a decoration layer and a supporting layer, wherein the supporting layer is prepared from the plastic composition. The composite floor provided by the present invention has the advantages of simple structure, beautiful and elegant appearance, and good anti-water, anti-insect and anti-mildew effects. Moreover, the composite floor can effectively save wood resources, is low in cost and is more environmentally friendly.

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.

A grooved resin molded part which when joined to another molded part, can form a composite molded product having an enhanced strength. This part contains an inorganic filler and has multiple grooves formed by partially removing the resin, such that the filler is exposed in these grooves. The depth of the grooves may be at least one-half of the length of the grooves in the shorter direction. The filler may have a fibrous shape; and the longer direction of the filler may be different from that of the grooves. The part is obtained by subjecting a resin molded part containing the filler to laser irradiation or the like to form multiple grooves in which the filler is exposed.

A grooved resin molded part which when joined to another molded part, can form a composite molded product having an enhanced strength. This part contains an inorganic filler and has multiple grooves formed by partially removing the resin, such that the filler is exposed in these grooves. The depth of the grooves may be at least one-half of the length of the grooves in the shorter direction. The filler may have a fibrous shape; and the longer direction of the filler may be different from that of the grooves. The part is obtained by subjecting a resin molded part containing the filler to laser irradiation or the like to form multiple grooves in which the filler is exposed.

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.

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 dcor layer that further comprises a sub layer, an ink layer, and a wear layer disposed above the ink layer.

Embodiments of the disclosure relate to a duct for an optical fiber cable. The duct includes a tubular wall having an inner surface and an outer surface. The inner surface defines a longitudinal bore. A plurality of strength elements is disposed within the tubular wall. The plurality of strength elements is formed from yarns that are not combustible at a temperature below 900 C. Also disclosed are embodiments of a method of forming such a duct. In the method, a flame retardant polymeric composition is extruded to form the tubular wall, and the plurality of strength elements are embedded in the tubular wall. It is expected that the combination of an optical fiber cable having a flame retardant rating and such a duct will maintain the flame retardant rating when the optical fiber cable is disposed within the longitudinal bore of the duct.