The present invention provides a method for producing a thermosetting resin molded article, in which emboss or decorative pattern can be formed at the same time of molding a thermosetting resin composition. In the present invention, a decorative film having abase film and a decorative layer is disposed on at least a design forming area in a surface of a shaping mold so that the decorative layer is faced inwardly, and a thermosetting resin composition is injected into a cavity of the shaping mold and the thermosetting resin composition is thermally cured. The base film is (1) a film which has a tensile elongation at break of more than 500% and a tensile stress at 100% of 0.1 MPa to 2.5 MPa, at the thermal curing temperature for the thermosetting resin composition; or (2) a film which is formed of a non-crosslinked olefin thermoplastic resin and which has a tensile elongation at break of 500% or more and a tensile stress at 100% of 0.1 MPa or more, at the thermal curing temperature for the thermosetting resin composition.

The present disclosure relates to a cladding element including several layers for a floor area of a luggage compartment in a vehicle, with a cover layer facing the luggage compartment, an acoustic foam layer facing the vehicle body, and a heavy layer arranged between the cover layer and the acoustic foam layer, which further includes a carrier layer of a foamed thermoplastic material, which is arranged between the acoustic foam layer and heavy layer, as well as to a method for manufacturing the cladding element.

A cell is provided. The cell includes a cell element including a positive electrode, a negative electrode, an electrolyte and a laminate film including an exterior layer, a metal layer, an interior layer, and a welded layer formed of the interior layer; wherein a thickness of the welded layer is larger than 5 m in a flat portion of the interior layer, wherein the welded layer increases in thickness from the flat portion to an end portion of the welded layer, and wherein when a thickness of the laminate film is t, a thickness of the interior layer is p and a thickness of the laminate film in the welded layer is t1, a following equation is satisfied: t2p2+5<t1<t25 (m).

A vehicle trim component is disclosed. A method for forming the trim component is also disclosed. The trim component is configured to support an airbag chute providing an airbag. The airbag is configured to be deployed through an opening. The trim component may comprise (a) a substrate a structure, (b) a cover comprising a skin made of a thermoplastic material (e.g. TPO having a substantially constant thickness of less than 0.7 mm) and a support layer coupled to the skin, and (c) a thermoplastic (e.g. foam) layer between the cover and the substrate. The thermoplastic foam) layer may be configured to attach the cover to the substrate. The airbag chute may be secured between the thermoplastic (e.g. foam) layer and the substrate. The support layer may be made of a foam material (e.g. polypropylene and/or polyethylene foam). The process for forming the trim component may comprise the steps of (a) providing a skin; (b) applying a support layer to the skin to create a cover; (c) providing the cover in a mold; (d) providing an airbag chute in the mold; (e) providing a substrate in the mold; and (I) injecting a thermoplastic (e.g. foam) material between the cover and the substrate.

A trim element for a vehicle element, where the trim element comprises a shell with an inner surface intended to be oriented towards the interior of the vehicle element and an outer surface intended to form a rear surface of the vehicle element, and a pocket fixed to the outer surface of the shell, where the pocket comprises a panel which has a lower and lateral edges and at least one stiffening element arranged in the lower and lateral edges. The shell further comprises at least one groove in which are housed at least one from the lateral edges and/or the lower edge of the panel for assembly of the panel with the shell.

A tubular irrigation device, such as a pipe or sleeve, having a circular multilayer polymeric structure including one or more layers of woven polymeric thermoplastic materials, one or more layers of thermoplastic polymeric materials, and one or more layers of polymeric waterproofing materials in film form. Methods of making the tubular irrigation device are also described.

An object of the present invention is to provide a laminated member for decoration that can be molded into a complicated shape and has a superior hardcoating property. The present invention relates to a laminated member for decoration having a protective film, a coating layer and a resin substrate, wherein the surface roughness Rz(a) of the adhesive layer of the protective film on the side where the coating layer is located and the surface roughness Rz(b) of the coating layer of an unheated sample formed by peeling the protective layer, the surface roughness being taken on the side opposite from the resin substrate, define Rz(b)/Rz(a)100 having a prescribed relationship; the surface roughness Rz(b) and the surface roughness Rz(bh) of the coating layer of a heated sample prepared by heating the unheated sample under a prescribed condition, the surface roughness being taken on the side opposite from the resin substrate, satisfy at least one of Formulas (2) and (3) below:
0%Rz(bh)/Rz(b)100<30%(2), and
0Rz(bh)Rz(b)<0.5 m(3);
and the unreacted (meth)acryloyl groups of the coating layer of the heated sample irradiated with a prescribed amount of active energy rays have disappeared 10 to 100% as compared with the coating layer of the unheated sample.

A three-dimensional network structure is impregnated with a foam material through an osmosis membrane. The foam material is then solidified. The foam material with which the three-dimensional network structure is impregnated is in contact with resin wires of the three-dimensional network on a wide area and is solidified. Thus, a bonded body that comprises the three-dimensional network structure and a foam and has improved connection strength can be manufactured.

A method and a connecting element for joining two components, at least one of which is made of a fiber-reinforced composite, are proposed.

A three-dimensional structural molded part is provided having one or more pre-formed organometallic sheet-metal parts each having at least one edge. The organometallic sheet-metal parts are connected at respective edges at least partly by an injection-molded plastics material.