The wet sheet packaging body includes a plurality of wet sheets (1), a packaging container configured to house the wet sheets. The packaging container includes a top surface and a dispensing opening, on the top surface, configured to take out each of the wet sheets, an opening and closing lid (5) configured to open and close the dispensing opening (33) of the packaging container, and the wet sheets housed in a layered state in the packaging container. The inner bag (2) includes an opening part (24) and a bottom part (21). The wet sheets are housed in the inner bag. The inner bag is housed in the packaging container while the opening part is directed downward and the bottom part is directed upward. The inner bag is pulled out from the dispensing opening of the packaging container for removal when use of the wet sheet packaging body is started.

A box blank useful for forming a container includes a first layer including paperboard, a second layer including a paper layer and a foil layer, and an adhesive layer adhering the first layer to the second layer. The foil layer is between the paperboard and the paper layer.

A box blank useful for forming a container includes a first layer including paperboard, a second layer including a paper layer and a foil layer, and an adhesive layer adhering the first layer to the second layer. The foil layer is between the paperboard and the paper layer.

Examples of a pre-cooked instant food products and a process for preparing such food products are described. The process comprises the steps of i) steaming the food product for pre-determined time; ii) immersing the steamed food product in a high concentration cooled brine solution; iii) removing excess water from the surface of the food product; iv) packing a pre-determined amount of the food product into a container and sealing such container, and v) storing the containers of pre-cooked instant food products at temperatures of 2° C. or lower. The container is made of a material safe for keeping food products and is able to withstand temperatures higher than 90° C. The surface of the food product is coated with the salt from the brine solution to preserve it.

Examples of a pre-cooked instant food products and a process for preparing such food products are described. The process comprises the steps of i) steaming the food product for pre-determined time; ii) immersing the steamed food product in a high concentration cooled brine solution; iii) removing excess water from the surface of the food product; iv) packing a pre-determined amount of the food product into a container and sealing such container, and v) storing the containers of pre-cooked instant food products at temperatures of 2° C. or lower. The container is made of a material safe for keeping food products and is able to withstand temperatures higher than 90° C. The surface of the food product is coated with the salt from the brine solution to preserve it.

A packaged film for masking an aircraft component, wherein the packaged film is configured to form a tubular sleeve when unpackaged. The packaged film is formed by performing a longitudinal telescopic folding operation on a longitudinal portion of a film to provide a longitudinally parallelogram-shaped stacked film; and performing at least a first transverse folding operation on a first portion of the longitudinally parallelogram-shaped stacked film, the first transverse folding operation comprising an operation selected from accordion folding and roll folding to provide the packaged film. The packaged film is capable of being unfolded in a reverse order of the longitudinal telescopic folding operation and the first transverse folding operation to cover said aircraft component.

A packaged film for masking an aircraft component, wherein the packaged film is configured to form a tubular sleeve when unpackaged. The packaged film is formed by performing a longitudinal telescopic folding operation on a longitudinal portion of a film to provide a longitudinally parallelogram-shaped stacked film; and performing at least a first transverse folding operation on a first portion of the longitudinally parallelogram-shaped stacked film, the first transverse folding operation comprising an operation selected from accordion folding and roll folding to provide the packaged film. The packaged film is capable of being unfolded in a reverse order of the longitudinal telescopic folding operation and the first transverse folding operation to cover said aircraft component.

A transport container. The transport container is used for the packaging and transportation of silicon fragments. Where the transport container includes 8 to 14 flat film bags or 8 to 12 flat double film bags that contain an amount of the silicon fragments therein.

A transport container. The transport container is used for the packaging and transportation of silicon fragments. Where the transport container includes 8 to 14 flat film bags or 8 to 12 flat double film bags that contain an amount of the silicon fragments therein.

Provided is an insulation liner for use inside a shipping carton that affords thermal insulation and shock absorption for an object to be shipped, a liner and carton system, a method of production of the insulation liner, and methods of use. The insulation liner includes a larger component folded into three panels, a smaller component folded into three panels, and standoffs disposed on the surfaces of both the larger component and the smaller component. The standoffs may be oriented inwardly or outwardly. When oriented outwardly they create an interstitial air space that reduces conduction allowing the insulation effect of the liner and carton system to equal or exceed that of a molded polystyrene container of an equal size.