To reliably perform partial decoration forming by avoiding crush deformation of a hollow structure due to a change into a pressure-reduced state even in a case where part of the hollow structure is included in a partial decoration forming range of a formed plate material. A surrounding frame body (33) is brought into contact with an upper portion of a body to be coated to surround the decoration forming range, and the body to be coated is accommodated, and an upper space (A) in a sealed state and a lower space in a sealed state are formed. A surrounded space in a sealed state whose top and bottom are surrounded by a decorative film and the body to be coated in the decoration forming range is formed after the lower space and the upper space (A) in the sealed state are brought into a predetermined first pressure state where the pressures in the lower space and the upper space (A) are equal to each other. By instantaneously increasing the pressures in the lower space and the upper space (A) around the surrounded space from the pressure-reduced state to a second pressure state where the pressures are equal to each other while keeping the surrounded space at the first pressure state, partial decoration forming is performed on the decoration forming range in the surrounded space with the decorative film.

A method of thermoforming an article from an integrated transparent conductive film, comprising: applying an ultraviolet curable transfer coating to a first surface of a recipient substrate or to a first surface of a donor substrate, wherein the first surface of the donor substrate includes a conductive coating coupled thereto; pressing the first surface of the recipient substrate and the first surface of the donor substrate together to form a stack; heating the stack and activating the ultraviolet curable transfer coating with an ultraviolet radiation source; removing the donor substrate from the stack leaving a transparent conductive layer, wherein the ultraviolet curable transfer coating remains adhered to the first surface of the recipient substrate and to the conductive coating; laser etching an electrical circuit onto a transparent conductive layer second surface to form an integrated transparent conductive film; and thermoforming the integrated transparent conductive film to form the article.

While naturally suctioning air between a first thermoplastic resin sheet and a second thermoplastic resin sheet from a fluid passage formed in a first thermoplastic resin sheet, the first thermoplastic resin sheet is subjected to vacuum-molding by a first vacuum molding die, a first shaping section is formed in the first thermoplastic resin sheet by a molded section of the first vacuum molding die, the second thermoplastic resin sheet is subjected to vacuum-molding by a second vacuum molding die, a second shaping section is formed in the second thermoplastic resin sheet by the molded section of the second vacuum molding die, and a hollow section is defined between the first thermoplastic resin sheet and the second thermoplastic resin sheet by the first shaping section and the second shaping section.

While naturally suctioning air between a first thermoplastic resin sheet and a second thermoplastic resin sheet from a fluid passage formed in a first thermoplastic resin sheet, the first thermoplastic resin sheet is subjected to vacuum-molding by a first vacuum molding die, a first shaping section is formed in the first thermoplastic resin sheet by a molded section of the first vacuum molding die, the second thermoplastic resin sheet is subjected to vacuum-molding by a second vacuum molding die, a second shaping section is formed in the second thermoplastic resin sheet by the molded section of the second vacuum molding die, and a hollow section is defined between the first thermoplastic resin sheet and the second thermoplastic resin sheet by the first shaping section and the second shaping section.

Provided is a fluorine-based resin multilayer film for vacuum forming which does not cause wrinkles and the like when a three-dimensional surface decoration method is applied. The fluorine-based resin multilayer film for vacuum forming includes a front surface layer containing 60% by mass to 85% by mass of a vinylidene fluoride-based resin and 40% by mass to 15% by mass of a methacrylate ester-based resin; and a back surface layer containing 0% by mass to 50% by mass of a vinylidene fluoride-based resin and 100% by mass to 50% by mass of a methacrylate ester-based resin, wherein the thermal dimensional change in a film flow direction when heated at 120 C. for 30 minutes, which is measured based on JIS K7133, is 15% to 2%.

Provided is a fluorine-based resin multilayer film for vacuum forming which does not cause wrinkles and the like when a three-dimensional surface decoration method is applied. The fluorine-based resin multilayer film for vacuum forming includes a front surface layer containing 60% by mass to 85% by mass of a vinylidene fluoride-based resin and 40% by mass to 15% by mass of a methacrylate ester-based resin; and a back surface layer containing 0% by mass to 50% by mass of a vinylidene fluoride-based resin and 100% by mass to 50% by mass of a methacrylate ester-based resin, wherein the thermal dimensional change in a film flow direction when heated at 120 C. for 30 minutes, which is measured based on JIS K7133, is 15% to 2%.

A method of manufacturing cross-corrugated support structures is provided. A mold having a molding surface with a first plurality and a second plurality of corrugations therein is used to introduce corrugations into a flexible, carbonaceous sheet. Cross-corrugations are introduced into the sheet by placing the sheet onto the molding surface, encapsulating the sheet to form a vacuum chamber, and evacuating the vacuum chamber of air. As air is evacuated from the vacuum chamber, the sheet is drawn upon the molding surface causing the sheet to conform to the shape of the molding surface. Thermosetting resin is infused into the sheet and cured causing the sheet to rigidly retain the shape of the molding surface. The sheet is further reinforced by securing at least one support member to the sheet using thermosetting resin.

A method of manufacturing a product with skin includes: attaching a preformed base material to a vacuum forming die on a back surface of the base material, disposing a skin material as a material of the skin on a front surface of a base material, and sucking the skin material through the vacuum forming die and the base material to deform a main portion of skin material so as to be in close contact with the front surface of the base material; cutting a surplus portion of the skin material not being in close contact with the front surface of the base material with a trim blade so that a distal end portion remains around the main portion, thereby forming the skin having the distal end portion; and winding the distal end portion of the skin around the back surface of the base material by a winding mechanism.

A method of manufacturing a product with skin includes: attaching a preformed base material to a vacuum forming die on a back surface of the base material, disposing a skin material as a material of the skin on a front surface of a base material, and sucking the skin material through the vacuum forming die and the base material to deform a main portion of skin material so as to be in close contact with the front surface of the base material; cutting a surplus portion of the skin material not being in close contact with the front surface of the base material with a trim blade so that a distal end portion remains around the main portion, thereby forming the skin having the distal end portion; and winding the distal end portion of the skin around the back surface of the base material by a winding mechanism.

A sheet expressing a good tactile sensation and a molded product thereof. By configuring a resin sheet including hairlike bodies arranged regularly on at least one surface of an underlayer in which a continuous phase is formed without any structural boundary between the underlayer and the hairlike bodies, and the underlayer and the hairlike bodies have at least partially a crosslinked structure, a molded product expressing a good tactile sensation is obtained.