A tray for containing a product includes a base, a lateral wall emerging from the base to define a containing seat adapted to receive the product. The lateral wall comprises at least one movable portion configurable between a first stable position, wherein the movable portion is placed in continuity with respect to the lateral wall, and a second stable position, wherein the movable portion protrudes from the lateral wall and defines an access passing through the lateral wall itself. Moreover, the present invention refers to a process and an associated apparatus of making said tray. Further, the present invention refers to a vacuum package using the above described tray and to a plastic film sealingly applied on the tray and closing the access, and also to a process and a packaging apparatus for making said package.

Multi-layer collation shrink film comprising a main layer based on a polyethylene mixture comprising 75 to 85 wt.-% low density polyethylene and 15 to 25 wt.-% high density polyethylene or linear low density polyethylene and a skin layer based on a polar ethylene copolymer with vinyl acetate or alkyl (meth)acrylate with a vinyl acetate or alkyl (meth)acrylate content of at least 15 wt.-% and containing 5000 to 20000 ppm silica and a slip agent, use of the film in multi-layer packaging films and method for packaging objects together with the multi-layer collation shrink film including printing the skin layer with a digital ink printing process before or after packaging the objects.

Multi-layer collation shrink film comprising a main layer based on a polyethylene mixture comprising 75 to 85 wt.-% low density polyethylene and 15 to 25 wt.-% high density polyethylene or linear low density polyethylene and a skin layer based on a polar ethylene copolymer with vinyl acetate or alkyl (meth)acrylate with a vinyl acetate or alkyl (meth)acrylate content of at least 15 wt.-% and containing 5000 to 20000 ppm silica and a slip agent, use of the film in multi-layer packaging films and method for packaging objects together with the multi-layer collation shrink film including printing the skin layer with a digital ink printing process before or after packaging the objects.

There is illustrated and described a bundle (14) comprising packaging sleeves (10) and an outer packaging (15), comprising: a plurality of packaging sleeves (10) of a composite material, and an outer packaging (15) which surrounds the packaging sleeves (10), wherein each packaging sleeve (10) has a front side (12) and a rear side (13), wherein the front side (12) and the rear side (13) of each packaging sleeve (10) are separated from each other by means of folding edges (F), along which the packaging sleeve (10) is folded flat, wherein each packaging sleeve (10) has two openings which are arranged on opposite sides of the packaging sleeve (10), and wherein each packaging sleeve (10) has a longitudinal seam (11) which connects two edges of the composite material to form a circumferential packaging sleeve (10). In order to enable a space-saving, cost-effective and reliable transport of packaging sleeves (10), it is proposed that the outer packaging (15) be produced from a plastics material film (17).

There is illustrated and described a bundle (14) comprising packaging sleeves (10) and an outer packaging (15), comprising: a plurality of packaging sleeves (10) of a composite material, and an outer packaging (15) which surrounds the packaging sleeves (10), wherein each packaging sleeve (10) has a front side (12) and a rear side (13), wherein the front side (12) and the rear side (13) of each packaging sleeve (10) are separated from each other by means of folding edges (F), along which the packaging sleeve (10) is folded flat, wherein each packaging sleeve (10) has two openings which are arranged on opposite sides of the packaging sleeve (10), and wherein each packaging sleeve (10) has a longitudinal seam (11) which connects two edges of the composite material to form a circumferential packaging sleeve (10). In order to enable a space-saving, cost-effective and reliable transport of packaging sleeves (10), it is proposed that the outer packaging (15) be produced from a plastics material film (17).

A peelable heat-shrink tubing includes a base polymer comprising fluorinated ethylene propylene (FEP), and at least one fluoropolymer coextruded with the base polymer. The peelable heat-shrink tubing may have a haze between about 40% and 80%, inclusive, and/or a total luminous transmittance between about 70% and 85%, inclusive. In some embodiments, the haze may be between about 50% and 70%, inclusive, and/or the total luminous transmittance may be less than about 80%. The base polymer may comprise FEP NP-130 and constitute between about 87.5% and 92.5% by composition of the peelable heat-shrink tubing, inclusive, and the at least one fluoropolymer may comprise ethylene tetrafluoroethylene (ETFE) and constitute between about 7.5% and 12.5% by composition of the peelable heat-shrink tubing, inclusively. In some embodiments, the at least one fluoropolymer may comprise 7.5% of ETFE and 5% of perfluoroalkoxy alkane (PFA), each by composition of the peelable heat-shrink tubing, inclusive.

A peelable heat-shrink tubing includes a base polymer comprising fluorinated ethylene propylene (FEP), and at least one fluoropolymer coextruded with the base polymer. The peelable heat-shrink tubing may have a haze between about 40% and 80%, inclusive, and/or a total luminous transmittance between about 70% and 85%, inclusive. In some embodiments, the haze may be between about 50% and 70%, inclusive, and/or the total luminous transmittance may be less than about 80%. The base polymer may comprise FEP NP-130 and constitute between about 87.5% and 92.5% by composition of the peelable heat-shrink tubing, inclusive, and the at least one fluoropolymer may comprise ethylene tetrafluoroethylene (ETFE) and constitute between about 7.5% and 12.5% by composition of the peelable heat-shrink tubing, inclusively. In some embodiments, the at least one fluoropolymer may comprise 7.5% of ETFE and 5% of perfluoroalkoxy alkane (PFA), each by composition of the peelable heat-shrink tubing, inclusive.

An object can be heat-shrinkable packaged by placing an object inside of heat-shrinkable film, sealing the heat-shrinkable film around the object to form a heat-shrinkable package, coupling a first portion of a label to the heat-shrinkable package, and causing the heat-shrinkable film to shrink into heat-shrunk film and the heat-shrinkable package to form into a heat-shrunk package. The label includes an identifier on a second portion of the label. The label remains coupled to the heat-shrunk film after the heat-shrinkable film is caused to shrink into heat-shrunk film. The second portion of the label remains substantially undeformed after the heat-shrinkable film is caused to shrink into heat-shrunk film.

A direct-to-consumer heat shrunk bundled product made up of a plurality of paper product rolls each individually packaged by a first package material and arranged relative to one another so as to form a bundle, the bundle being packaged by a second package material, wherein a substantial portion of the inner surface of the second package material is in contact with the first package material of the plurality of paper product rolls and is nonstick relative to the first package material. The bundle includes fused end seals so that the bundle does not include open gussets that might otherwise catch on machinery during sorting and shipping. The packaging material and/or wrapper may include laser energy absorbing material or adhesive.

A direct-to-consumer heat shrunk bundled product made up of a plurality of paper product rolls each individually packaged by a first package material and arranged relative to one another so as to form a bundle, the bundle being packaged by a second package material, wherein a substantial portion of the inner surface of the second package material is in contact with the first package material of the plurality of paper product rolls and is nonstick relative to the first package material. The bundle includes fused end seals so that the bundle does not include open gussets that might otherwise catch on machinery during sorting and shipping. The packaging material and/or wrapper may include laser energy absorbing material or adhesive.