A contact lens blister package 1 includes (i) a cavity 4 for storing a contact lens 20 and (ii) charging circuitry 3 configured to charge an electronic device 22 forming part of a contact lens 20 stored in said cavity 4. Related methods are also described.

A contact lens blister package 1 includes (i) a cavity 4 for storing a contact lens 20 and (ii) charging circuitry 3 configured to charge an electronic device 22 forming part of a contact lens 20 stored in said cavity 4. Related methods are also described.

In various aspects, the present disclosure pertains to thermoformed webs that comprise polymer films having one or more thermoformed cavities contained therein, the polymer films comprising a polymer blend of amorphous polyethylene terephthalate (APET), polyethylene furanoate (PEF), and a copolyester that comprises (a) dicarboxylic acid residues (e.g., dicarboxylic acid residues that comprise terephthalic acid residues and, optionally, one or more additional dicarboxylic acid residues) and (b) diol residues (e.g., diol residues comprising ethylene glycol residues and, optionally, one or more additional diol monomer residues). Other aspects of the disclosure pertain to methods of forming such thermoformed webs, packaged products comprising such thermoformed webs, and methods of recycling such thermoformed webs.

In various aspects, the present disclosure pertains to thermoformed webs that comprise polymer films having one or more thermoformed cavities contained therein, the polymer films comprising a polymer blend of amorphous polyethylene terephthalate (APET), polyethylene furanoate (PEF), and a copolyester that comprises (a) dicarboxylic acid residues (e.g., dicarboxylic acid residues that comprise terephthalic acid residues and, optionally, one or more additional dicarboxylic acid residues) and (b) diol residues (e.g., diol residues comprising ethylene glycol residues and, optionally, one or more additional diol monomer residues). Other aspects of the disclosure pertain to methods of forming such thermoformed webs, packaged products comprising such thermoformed webs, and methods of recycling such thermoformed webs.

The invention is directed broadly to a method of preparing a texture modified starch-based food product, comprising the steps: (a) dehydrating a starch-based food to remove excess water; (b) grinding the dehydrated starch-based food to form a fine powder; (c) adding a carrier to coat the fine powder; (d) rehydrating the coated powder to form a paste; and (e) forming the paste into the texture modified starch-based food product shaped and textured to a generic serve of the starch-based food selected to form the paste.

The invention is directed broadly to a method of preparing a texture modified starch-based food product, comprising the steps: (a) dehydrating a starch-based food to remove excess water; (b) grinding the dehydrated starch-based food to form a fine powder; (c) adding a carrier to coat the fine powder; (d) rehydrating the coated powder to form a paste; and (e) forming the paste into the texture modified starch-based food product shaped and textured to a generic serve of the starch-based food selected to form the paste.

Provided is a film thermoforming device of a blister packaging machine in which molding can be carried out without extreme reduction in a sheet thickness of a top surface portion of a pocket, and without warpage, which allows stacking, and stable molding can be performed at a high rate. This film thermoforming device comprises a compressed air blowing mechanism that is disposed at a forming mold 5A and that has a compressed air blowing pore 53a which is open at an inner bottom portion of a pocket hole 52 of the forming mold 5A, and a compressed air blowing pore 53b which is open around the pocket hole 52 of the forming mold 5A.

Provided is a film thermoforming device of a blister packaging machine in which molding can be carried out without extreme reduction in a sheet thickness of a top surface portion of a pocket, and without warpage, which allows stacking, and stable molding can be performed at a high rate. This film thermoforming device comprises a compressed air blowing mechanism that is disposed at a forming mold 5A and that has a compressed air blowing pore 53a which is open at an inner bottom portion of a pocket hole 52 of the forming mold 5A, and a compressed air blowing pore 53b which is open around the pocket hole 52 of the forming mold 5A.

A novel lower tool enables a packaging machine having a molding station with a trough to be used to produce skin packaging having a flat base plate. The lower tool includes a body base and a flat upper surface and is arranged in the molding station of the packaging machine such that the flat upper surface of the lower tool covers the trough. The lower tool fits detachably into a lower tool holder of the packaging machine. During the packaging production, the flat upper surface supports the flat base plate of the packaging. Suction applied via a passage through the flat upper surface is used to hold the flat base plate onto the flat upper surface. The lower tool is a means for converting the packaging machine from producing a first type of packaging having a trough-shaped carrier into producing a second type of packaging that has a flat carrier.

A novel lower tool enables a packaging machine having a molding station with a trough to be used to produce skin packaging having a flat base plate. The lower tool includes a body base and a flat upper surface and is arranged in the molding station of the packaging machine such that the flat upper surface of the lower tool covers the trough. The lower tool fits detachably into a lower tool holder of the packaging machine. During the packaging production, the flat upper surface supports the flat base plate of the packaging. Suction applied via a passage through the flat upper surface is used to hold the flat base plate onto the flat upper surface. The lower tool is a means for converting the packaging machine from producing a first type of packaging having a trough-shaped carrier into producing a second type of packaging that has a flat carrier.