Abstract: This injection-molded article is an injection-molded article using a cellulosic fiber composite resin, including: a resin insert piece including a colorant or a cellulose fiber; a first region formed of the cellulosic fiber composite resin; and a second region formed along a weld line of the cellulosic fiber composite resin extending from the resin insert piece, in which the first region and the second region have different color tones.

Abstract: This injection-molded article is an injection-molded article using a cellulosic fiber composite resin, including: a resin insert piece including a colorant or a cellulose fiber; a first region formed of the cellulosic fiber composite resin; and a second region formed along a weld line of the cellulosic fiber composite resin extending from the resin insert piece, in which the first region and the second region have different color tones.

Abstract: A decorative metal component with a high design property on a surface of a metal sheet is a formed article formed by press working such as bending or drawing operation with respect to a metal sheet, which includes a resin layer with concave and convex shapes laminated on one surface of the metal sheet, in which the resin layer has a light transmission property, the resin layer is formed of a surface layer and an intermediate layer for bonding the metal sheet to the surface layer, the intermediate layer is a thermoplastic resin, and when a distance in a vertical direction between a top of a convex ridge and a bottom surface of a concave trough adjacent in the concave and convex shape is “t1”, and the total thickness of the resin layer is “t0”, t0×0.13?t1<t0×0.85.

Abstract: A wiring incorporated resin pipe includes a tubular shaped sheet formed in an approximately tubular shape at an interval so that a slit is formed between both ends in a transverse direction, a wiring unit arranged in the tubular shaped sheet along a longitudinal direction of the slit in an inner side of the slit and a resin material filled in a gap formed by matching surfaces of the slit of the tubular shaped sheet and the wiring unit to thereby seal the matching surfaces of the slit of the tubular shape sheet, in which conductive wires for wiring are laid inside the wiring unit in the longitudinal direction.

Abstract: A molded article 1 is made of a resin material 3 containing cellulose fibers 2. The molded article 1 has a surface portion 4 that is in a range satisfying TF?0.1×T where T is the thickness of the molded article 1 and TF is a distance from the surface of the molded article 1, and the molded article 1 satisfies DF?1.1×D where D is an average cellulose concentration of the overall molded article 1 and DF is an average cellulose concentration of the surface portion 4. Thus, the molded article suppresses an increase in bending modulus while considerably improving a tensile modulus.

Abstract: A decorative metal component with a high design property on a surface of a metal sheet is a formed article formed by press working such as bending or drawing operation with respect to a metal sheet, which includes a resin layer with concave and convex shapes laminated on one surface of the metal sheet, in which the resin layer has a light transmission property, the resin layer is formed of a surface layer and an intermediate layer for bonding the metal sheet to the surface layer, the intermediate layer is a thermoplastic resin, and when a distance in a vertical direction between a top of a convex ridge and a bottom surface of a concave trough adjacent in the concave and convex shape is “t1”, and the total thickness of the resin layer is “t0”, t0×0.13?t1<t0×0.85.

Abstract: Disclosed herein is easy and efficient production of a light and strong resin tube. A resin sheet is molded into a tubular form having a gap, and at least the gap portion is sealed with resin to produce a resin tube. This enables easy and efficient production of a light and strong resin tube.

Abstract: A molded article 1 is made of a resin material 3 containing cellulose fibers 2. The molded article 1 has a surface portion 4 that is in a range satisfying TF?0.1×T where T is the thickness of the molded article 1 and TF is a distance from the surface of the molded article 1, and the molded article 1 satisfies DF?1.1×D where D is an average cellulose concentration of the overall molded article 1 and DF is an average cellulose concentration of the surface portion 4. Thus, the molded article suppresses an increase in bending modulus while considerably improving a tensile modulus.

Abstract: A wiring incorporated resin pipe includes a tubular shaped sheet formed in an approximately tubular shape at an interval so that a slit is formed between both ends in a transverse direction, a wiring unit arranged in the tubular shaped sheet along a longitudinal direction of the slit in an inner side of the slit and a resin material filled in a gap formed by matching surfaces of the slit of the tubular shaped sheet and the wiring unit to thereby seal the matching surfaces of the slit of the tubular shape sheet, in which conductive wires for wiring are laid inside the wiring unit in the longitudinal direction.

Abstract: Disclosed herein is easy and efficient production of a light and strong resin tube. A resin sheet is molded into a tubular form having a gap, and at least the gap portion is sealed with resin to produce a resin tube. This enables easy and efficient production of a light and strong resin tube.

Abstract: According to a molding method for a fiber reinforced composite material, a cavity forming surface 13 of a second mold 12 with a recessed portion 14 for molding a thick portion is brought into contact with a fiber reinforced composite material 15. The fiber reinforced composite material 15 is heated in a state in which the temperature of the cavity forming surface 13 is higher than that of a cavity forming surface 11 of a first mold 10. After that, the first mold 10 and the second mold 12 are closed with a pressure to the fiber reinforced composite material 15 so as to pass the fiber reinforced composite material 15 into the recessed portion 14. This can integrally mold the thick portion with the main body of a molded component.

Abstract: A polyolefin-based fiber-reinforced multilayered sheet of the present invention includes woven fabric layers layered via bonding layers on both surfaces of a core layer, wherein the core layer is made of at least one resin selected from the group consisting of a resin mainly made of polypropylene and a homopolymer polypropylene resin, the woven fabric layers are formed from yarns containing a composite fiber in which a first component is polypropylene and a second component is a polyolefin component having a melting point lower than that of the first component, the bonding layers are thermoadhesive polyolefin-based films, and a cover layer is layered on a surface of one of the woven fabric layers.

Abstract: A film in-mold injection mold device, including: a first mold that has an injection port configured to inject a molding material; and a second mold that is configured to face the first mold and has a sucking mechanism configured to suck a film to be supplied at a time of molding, wherein the second mold has a movable protruding part configured to touch, when the film is sucked, the film before the film touches an outer periphery edge part of a concave part which is formed on the second mold depending on a shape of an article to be molded, so as to temporarily ensure a space between the outer periphery edge part and the film.

Abstract: According to a molding method for a fiber reinforced composite material, a cavity forming surface 13 of a second mold 12 with a recessed portion 14 for molding a thick portion is brought into contact with a fiber reinforced composite material 15. The fiber reinforced composite material 15 is heated in a state in which the temperature of the cavity forming surface 13 is higher than that of a cavity forming surface 11 of a first mold 10. After that, the first mold 10 and the second mold 12 are closed with a pressure to the fiber reinforced composite material 15 so as to pass the fiber reinforced composite material 15 into the recessed portion 14. This can integrally mold the thick portion with the main body of a molded component.

Abstract: An injection molding method in which a multilayer film including a base layer and a transfer layer stacked on the base layer is disposed in the molding space of an injection mold, the molding space containing the multiplayer film is filled with resin, and then the injection mold is opened to obtain a molded article transferred with the transfer layer peeled from the base layer, wherein after the resin is injected into the molding space, a cooling circuit near the molding space cools the multilayer film before the injection mold is opened.