Films including a water-soluble polymeric material and a vapor-deposited inorganic coating are disclosed. The water-soluble polymeric material may comprise polyvinyl alcohol. The vapor-deposited inorganic coating may include a metal oxide. The vapor-deposited inorganic coating may include a plurality of microfractures. The films may form part of a package and/or a water-soluble unit dose article.

Melatonin tablets with a high concentration of citric acid are packaged in a blister package that enhances storage stability. Such a packaging material includes a blister film forming a cavity holding the tablet therein. The blister film includes a polyvinyl chloride (PVC) film having a thickness of 180 μm to 270 μm coated with a polyvinylidene chloride (PVDC) coating having a coating weight of 110 g/m.sup.2 to 130 g/m.sup.2. An aluminum foil lid closes the cavity and encapsulates the tablet within the blister film and lid. The lid has a thickness of 20 μm to 30 μm.

A blister package for a contact lens includes a base sheet and a sealing sheet. Either the base sheet or the sealing sheet includes a bowl, and the other sheet includes a dome and a sealing surface. The dome has a radius of curvature of about 13 mm to 19 mm and a height of less than 7 mm relative to the sealing surface. The dome is configured to protrude into the bowl to form a cavity. Related methods are also described.

A laminate has a substrate layer, an intermediate layer, and a fluorine-based resin layer in this order, and has a total film thickness of 400 μm or less, in which a thickness of the intermediate layer is 5 μm or more and 50 μm or less, and an upper yield point stress of the laminate is 1,500 N/cm.sup.2 or more.

A laminate has a substrate layer, an intermediate layer, and a fluorine-based resin layer in this order, and has a total film thickness of 400 μm or less, in which a thickness of the intermediate layer is 5 μm or more and 50 μm or less, and an upper yield point stress of the laminate is 1,500 N/cm.sup.2 or more.

The present invention relates to a method of packaging character ice cream using a horizontal disposable plastic film mold as an inner packaging material. Ice cream packaging material uses a horizontal disposable plastic film mold as the inner packaging material, in which a horizontal disposable character mold for maintaining a shape of bar-type character ice cream is made by forming a plastic film in a character shape or other stereoscopic shapes. Ice cream liquid is injected into the horizontal disposable plastic film mold and then frozen, and the ice cream is packaged together with a rear reinforcement material without separating the ice cream from the horizontal disposable plastic film mold, thereby preventing a surface of the ice cream from being oxidized or preventing the character shape from being damaged.

In some aspects, an item storage unit for storing one or more items includes the following components. A first frame component and a first stretch member coupled to at least a first surface of the first frame component. The first stretch member being more flexible relative to the first frame component. The one or more items are configured to be supported by at least the first stretch member and the first frame component.

A packaging element (2, 3) has two shells (21, 22, 31, 32), each shell having a margin (210, 220) defining an access opening giving access to the inside of the shell, said packaging element (2, 3) having at least a “closed” configuration in which the shells form a chamber that is substantially closed and that is suitable for receiving an article, such as a medical implant. The packaging element (2, 3) further has a sealing strip (4) that extends, outside the shells (21, 22, 31, 32), over the entire length of the margins (210, 220) of the shells of the packaging element, and from one margin (210, 220) of the shell to the other margin (220, 210) of the shell in such a manner as to seal the chamber defined by the two shells. An assembly has two packaging elements received one inside the other, with a corresponding sealing method.

A blister capsule for an aerosol-generating system, and a container including blister capsules, are provided, the blister capsule including a blister shell; a tubular porous element disposed in the blister shell; a volatile liquid sorbed on the tubular porous element; and a film configured to seal the blister shell, the film and the blister shell being frangible, and the container including at least two of the blister capsules coupled together by a hollow tubular canister configured as a mixing chamber for the volatile liquids contained in each of the blister capsules.

In an embodiment, the invention comprises a packaging structure comprising a cap layer which comprises post-consumer resin, at least one additional layer adjacent the first layer which comprises an alloy of: polyethylene terephthalate; a polyolefin; and at least one compatibilizer; a barrier coating adjacent the at least one additional layer and opposite the cap layer, wherein the barrier coating comprises a matrix of polyethyleneimine and polyvinyl alcohol and an overlacquer about the barrier coating. The methods of the invention may include co-extruding the cap layer and an alloy layer to form a co-extrudate; optionally, melt adhering the co-extrudate to another alloy layer to form a melt-adhered sheet; intermixing a solution of polyethyleneimine, polyvinyl alcohol, and water to form a coating; applying the coating to the outermost alloy layer opposite the cap layer; drying the applied coating; applying an overlacquer about the coating; and drying the overlacquer.