Three-dimensional decorative articles are produced from blanks of heat-shrinkable plastic sheet material, using a mold base having an outer surface with a recess over which a blank is placed, and a convex mold insert that moves into the recess by gravity as the blank softens and cooperates with the interior wall of the recess to shape the sheet material into a three-dimensional decorative article. A guide peg extends outward from the bottom of the recess past the outer surface of the mold base and extends through a hole formed in the blank, and through a guide hole in the mold insert to support the mold insert before heating and to guide the mold insert as it moves into the recess of the mold base.

Three-dimensional decorative articles are produced from blanks of heat-shrinkable plastic sheet material, using a mold base having an outer surface with a recess over which a blank is placed, and a convex mold insert that moves into the recess by gravity as the blank softens and cooperates with the interior wall of the recess to shape the sheet material into a three-dimensional decorative article. A guide peg extends outward from the bottom of the recess past the outer surface of the mold base and extends through a hole formed in the blank, and through a guide hole in the mold insert to support the mold insert before heating and to guide the mold insert as it moves into the recess of the mold base.

A composite foam article is disclosed herein. The composite foam article comprises a polyurethane foam core presenting a first surface and a second surface facing opposite the first surface. A first skin is disposed on the first surface and a second skin is disposed on the second surface. The polyurethane foam core has a density of 15-80 kg/m.sup.3. The first and second skins comprise a plurality of fibers and a polymeric binder. The composite foam article has a weight per unit area of 500-1000 g/m.sup.2 and a strength of greater than 17 N at a post-compression thickness of greater than 2 mm when tested in according with SAE J949 at 23° C.

Method for recapturing and reusing heat provided in the course of fabricating a molded plastic product.

Method for recapturing and reusing heat provided in the course of fabricating a molded plastic product.

Illustrated and described are a method and a device for laminating a profiled fibre moulding with a thermoplastic film. The film is laminated onto a surface of the fibre moulding to be coated by heat and differential pressure. To improve the lamination of the fibre moulding and to achieve uniform lamination thicknesses over the entire fibre moulding, the method includes the following steps: fixing at least an edge of the fed film to a base plate, heating the film, deforming the film via a moulding tool, feeding the fibre moulding, joining the fibre moulding to the pre-formed film, and removing the laminated fibre moulding.

An apparatus for the thermo-forming and/or thermo-adhesive bonding of semi-finished products comprises: an oven (6) having walls (8, 9, 11, 12) delimiting a chamber (13) configured for housing at least one semi-finished product (4); devices (15, 16, 20) for generating a flow of heated fluid; wherein at least one of the walls (11) has a plurality of openings (19) in fluid communication with the devices (15, 16, 20). Baffles (23) and/or closing elements (24) are mounted near at least some of the openings (19). The baffles (23) are configured to divert the heated fluid leaving the openings (19). The closing elements (24) are configured to obstruct some of the openings (19). The baffles (23) and/or the closing elements (24) are movable with respect to the walls (11) and/or they are replaceable, in order to change conditions of the flow of heated fluid in the chamber (13).

An apparatus for the thermo-forming and/or thermo-adhesive bonding of semi-finished products comprises: an oven (6) having walls (8, 9, 11, 12) delimiting a chamber (13) configured for housing at least one semi-finished product (4); devices (15, 16, 20) for generating a flow of heated fluid; wherein at least one of the walls (11) has a plurality of openings (19) in fluid communication with the devices (15, 16, 20). Baffles (23) and/or closing elements (24) are mounted near at least some of the openings (19). The baffles (23) are configured to divert the heated fluid leaving the openings (19). The closing elements (24) are configured to obstruct some of the openings (19). The baffles (23) and/or the closing elements (24) are movable with respect to the walls (11) and/or they are replaceable, in order to change conditions of the flow of heated fluid in the chamber (13).

A thermoforming system and related methods for manufacturing thermoplastic parts, such as interior panels for aircraft, may include a roll-to-roll operation and a forming press having at least one selectively rotatable tool. The rotatable tool, which may include a mold and/or a die, may be multifaceted, such that different faces of the tool have different mold arrangements for different forming characteristics.

A method of three-dimensionally shaping articles, such as articles that are difficult to transport, includes the following successive steps: placing at least one flexible cord (1) on a former (10), the cord (1) incorporating a heating electrical resistance surrounded by at least a first set of yarns of thermoplastic polymer material; connecting the flexible cord (1) to an electrical power supply for a given duration to cause the thermoplastic polymer of at least the first set of yarns surrounding the heating resistance to soften, the cord then taking on the shape imposed by the former (10); cooling the cord; and optionally removing the former (10) in order to obtain the three-dimensional object.