The present invention concerns a cosmetic product for modifying the natural color of keratinous fibers, in particular human hair, which contains at least one packaging (VP) and a cosmetic composition (KM) contained in this packaging (VP). The packaging is made of a multi-layer film (F) comprising at least two polymer layers (P1) and (P2) and at least one barrier layer (BS). The cosmetic composition comprises at least one oxidizing agent, at least one C.sub.8-C.sub.30 alcohol and at least one non-ionic surfactant. The use of the packaging (VP) in combination with the cosmetic composition (KM) surprisingly does not lead to an inflation of the packaging or an excessive water loss of the agent (KM) during storage.

The present invention concerns a cosmetic product for modifying the natural color of keratinous fibers, in particular human hair, which contains at least one packaging (VP) and a cosmetic composition (KM) contained in this packaging (VP). The packaging is made of a multi-layer film (F) comprising at least two polymer layers (P1) and (P2) and at least one barrier layer (BS). The cosmetic composition comprises at least one oxidizing agent, at least one C.sub.8-C.sub.30 alcohol and at least one non-ionic surfactant. The use of the packaging (VP) in combination with the cosmetic composition (KM) surprisingly does not lead to an inflation of the packaging or an excessive water loss of the agent (KM) during storage.

A sealed bag containing a reference fluid for the calibration and/or quality control of a creatine and/or creatinine sensor, the bag comprising: an inner polymer layer and an outer polymer layer; and an aluminium oxide gas barrier layer there between; and wherein the inner polymer layer is in contact with the reference fluid.

A sealed bag containing a reference fluid for the calibration and/or quality control of a creatine and/or creatinine sensor, the bag comprising: an inner polymer layer and an outer polymer layer; and an aluminium oxide gas barrier layer there between; and wherein the inner polymer layer is in contact with the reference fluid.

When the front sheet portion is viewed from a front side in a pre-filling state in which a storage space is not filled with contents and the gusset sheet portion is arranged overlapping the back sheet portion in a front-rear direction, a width of the gusset sheet portion is greater than a width of the second joining portion in a width direction, the first side-end joining portion includes a first inclined portion, and the second side-end joining portion includes a second inclined portion. When the front sheet portion is viewed from the front side in a post-filling state in which the storage space is filled with contents and the gusset sheet portion faces one side in a height direction, the first inclined portion and the second inclined portion extend along the height direction.

When the front sheet portion is viewed from a front side in a pre-filling state in which a storage space is not filled with contents and the gusset sheet portion is arranged overlapping the back sheet portion in a front-rear direction, a width of the gusset sheet portion is greater than a width of the second joining portion in a width direction, the first side-end joining portion includes a first inclined portion, and the second side-end joining portion includes a second inclined portion. When the front sheet portion is viewed from the front side in a post-filling state in which the storage space is filled with contents and the gusset sheet portion faces one side in a height direction, the first inclined portion and the second inclined portion extend along the height direction.

Provided is a high-purity tin product that does not contain undesirable carbonaceous impurities as a result of the following: a vacuum-packed high-purity metal article (vacuum-packed high-purity tin article) is obtained by vacuum packaging a high-purity metal (high-purity tin), at least a portion of a surface of a high-purity metal being covered with a fluorocarbon resin sheet; and the vacuum-packed high-purity metal article(vacuum-packed high-purity tin article) is obtained by vacuum packaging, with a vacuum packaging film, the high-purity metal in which at least a portion of a surface is covered with the fluorocarbon resin sheet.

Provided is a high-purity tin product that does not contain undesirable carbonaceous impurities as a result of the following: a vacuum-packed high-purity metal article (vacuum-packed high-purity tin article) is obtained by vacuum packaging a high-purity metal (high-purity tin), at least a portion of a surface of a high-purity metal being covered with a fluorocarbon resin sheet; and the vacuum-packed high-purity metal article(vacuum-packed high-purity tin article) is obtained by vacuum packaging, with a vacuum packaging film, the high-purity metal in which at least a portion of a surface is covered with the fluorocarbon resin sheet.

The present invention relates to a packaging, particularly for frozen food, which particularly comes from renewable sources, and which particularly does not compete with food production.

The problem is solved by a packaging for a frozen product, wherein at least 50 wt % of the packaging and/or its main component is formed of kraft paper and/or kraft cardboard, particularly unbleached, and/or paper, particularly fresh fiber paper.

The present invention relates to a packaging, particularly for frozen food, which particularly comes from renewable sources, and which particularly does not compete with food production.

The problem is solved by a packaging for a frozen product, wherein at least 50 wt % of the packaging and/or its main component is formed of kraft paper and/or kraft cardboard, particularly unbleached, and/or paper, particularly fresh fiber paper.