A resin molding system 1 comprises a gripping device 3 provided with a gripping frame 30 for gripping a resin sheet material 2, a heating device for heating the resin sheet material 2 and a molding device for clamping a lower die 61 and an upper die and affixing the resin sheet material 2 to a substrate 63. The molding device is provided with: a lowering device for lowering the gripping device 3 and causing the resin sheet material 2 gripped by the gripping frame 30 to approach the lower die 61; and a pair of bent posts 67, 68 which are provided on both Y-direction sides of the lower die 61, and which come in contact with portions of the gripping frame 30 when the gripping device 3 is lowered, and which convexly bend the gripping frame 30 upward as viewed from the side along the Y-direction.

To provide a decorative film in which swelling of a layer containing a fluorinated polymer is suppressed and adhesion of the layer containing the fluorinated polymer is excellent; and a method for producing a three-dimensional molded product provided with a decorative film. The decorative film is characterized by comprising a base film containing a plasticizer; a first layer containing at least one member selected from the group consisting of a polyvinylidene fluoride, a polymethyl methacrylate and a polyurethane; and a second layer containing a fluorinated polymer comprising units based on a fluoroolefin and units based on at least one type of non-fluorinated monomer selected from the group consisting of a vinyl ether, a vinyl ester, an allyl ether and an allyl ester, in this order; wherein the water contact angle of the surface on the first layer side of the second layer is larger than the water contact angle on the second layer side of the first layer, and the difference between the water contact angle of the surface on the first layer side of the second layer and the water contact angle of the surface on the second layer side of the first layer is more than 0° and at most 50°.

To provide a decorative film in which swelling of a layer containing a fluorinated polymer is suppressed and adhesion of the layer containing the fluorinated polymer is excellent; and a method for producing a three-dimensional molded product provided with a decorative film. The decorative film is characterized by comprising a base film containing a plasticizer; a first layer containing at least one member selected from the group consisting of a polyvinylidene fluoride, a polymethyl methacrylate and a polyurethane; and a second layer containing a fluorinated polymer comprising units based on a fluoroolefin and units based on at least one type of non-fluorinated monomer selected from the group consisting of a vinyl ether, a vinyl ester, an allyl ether and an allyl ester, in this order; wherein the water contact angle of the surface on the first layer side of the second layer is larger than the water contact angle on the second layer side of the first layer, and the difference between the water contact angle of the surface on the first layer side of the second layer and the water contact angle of the surface on the second layer side of the first layer is more than 0° and at most 50°.

In a pallet manufacturing method, variations of pallets, having different thicknesses of pallet bodies, heights of legs, or foaming ratios thereof, are manufactured at low cost and with high quality. The method includes a pallet body molding step for molding a plurality of the pallet bodies of a plurality of types having different thicknesses or expansion ratios of foaming; a leg molding step for molding, separately from the pallet body, a plurality of legs of a plurality of types having different heights or expansion ratios of foaming; and a vacuum forming step for forming a resin sheet for covering and integrating the pallet body and the legs from a bottom surface side of the pallet by vacuum integral forming after the pallet body and the legs are selected, respectively, from the plurality of types and assembled in a state that the legs are mounted on the pallet body.

In a pallet manufacturing method, variations of pallets, having different thicknesses of pallet bodies, heights of legs, or foaming ratios thereof, are manufactured at low cost and with high quality. The method includes a pallet body molding step for molding a plurality of the pallet bodies of a plurality of types having different thicknesses or expansion ratios of foaming; a leg molding step for molding, separately from the pallet body, a plurality of legs of a plurality of types having different heights or expansion ratios of foaming; and a vacuum forming step for forming a resin sheet for covering and integrating the pallet body and the legs from a bottom surface side of the pallet by vacuum integral forming after the pallet body and the legs are selected, respectively, from the plurality of types and assembled in a state that the legs are mounted on the pallet body.

The porous microwell according to an exemplary embodiment of the present invention is characterized in that as a porous microwell which is a cell culture surface for culturing cells, at least one thereof is indented in a downward direction and is located within a region formed by a penetrating part of a cell culture vessel, and the porous microwell includes a plurality of pores together with a connection part formed therearound, and a first porosity formed by first pores thereof and a second porosity formed by second pores formed in the connection part are different from each other.

The present disclosure is directed to recyclable lined molded fiber articles (e.g., bowls) that provide the necessary performance characteristics for storing frozen and refrigerated foods (acceptable oil resistance, water resistance, and water vapor barrier). The disclosed articles and methods for manufacturing such articles include bonding a thermoformable cellulose-based acetate film to a molded bagasse fiber article to form an impervious liner.

The present disclosure is directed to recyclable lined molded fiber articles (e.g., bowls) that provide the necessary performance characteristics for storing frozen and refrigerated foods (acceptable oil resistance, water resistance, and water vapor barrier). The disclosed articles and methods for manufacturing such articles include bonding a thermoformable cellulose-based acetate film to a molded bagasse fiber article to form an impervious liner.

The present invention relates to a method for measuring (100) the thickness of devices (20) obtained by thermoforming a sheet of thermoplastic material on a positive mold (10). In particular, the present invention relates to a method for measuring the thickness of orthodontic dental devices obtained by thermoforming processes, such as orthodontic braces for incremental dental repositioning, bites, occlusal guides and so on, which comprises the steps consisting in acquiring (110) a plurality of images of the device (20) obtained by thermoforming in configuration fitted on the positive mold (10) and deriving therefrom a three-dimensional digital model of the assembly consisting of the positive mold (10) and the device (20) obtained by thermoforming fitted on the same (10); acquiring (120) a plurality of images of the positive mold (10) in the absence of the fitted thermoformed device (20) and deriving therefrom a three-dimensional digital model of the positive mold (10) alone; comparing (130) the two three-dimensional digital models derived and calculating thicknesses of the thermoformed device (20) on the basis of the differences detected by the comparison.

The present invention relates to a method for measuring (100) the thickness of devices (20) obtained by thermoforming a sheet of thermoplastic material on a positive mold (10). In particular, the present invention relates to a method for measuring the thickness of orthodontic dental devices obtained by thermoforming processes, such as orthodontic braces for incremental dental repositioning, bites, occlusal guides and so on, which comprises the steps consisting in acquiring (110) a plurality of images of the device (20) obtained by thermoforming in configuration fitted on the positive mold (10) and deriving therefrom a three-dimensional digital model of the assembly consisting of the positive mold (10) and the device (20) obtained by thermoforming fitted on the same (10); acquiring (120) a plurality of images of the positive mold (10) in the absence of the fitted thermoformed device (20) and deriving therefrom a three-dimensional digital model of the positive mold (10) alone; comparing (130) the two three-dimensional digital models derived and calculating thicknesses of the thermoformed device (20) on the basis of the differences detected by the comparison.