LU101435B1 - Polymeric film for food packaging - Google Patents

Abstract

A polymeric packaging film for slowing down the ripening of fruits and / or vegetables, comprising a resin, in particular low density polyethylene, and an ethylene absorber compound encapsulated in the resin

Description

W 490430 | 1; The present invention relates to a polymer film, in particular a plastic film, for example monolayer or multilayer, for food packaging 1101435 having good properties for the preservation of fruits and vegetables, in particular bananas and fomates during transport and / or storage.

[0002] According to one aspect, the present invention provides a polymer film for packaging food articles, in particular a polymer film having a thickness greater than or equal to 10 μm and less than or equal to 100 μm, in which the polymer film comprises an absorbent layer , in particular permeable to gases, the absorbent layer comprising a resin, in particular a thermoplastic resin, in particular low density polyethylene, and an ethylene absorber compound encapsulated in the resin in which the ethylene absorber compound comprises a diatom. According to other aspects, the present invention provides: a plastic masterbatch for manufacturing the absorbent layer of a polymer film as defined in the first aspect, where the plastic masterbatch comprises a resin, in particular polyethylene, and diatom , in particular where the diatom is present in the plastic masterbatch in a total amount of 5 to 50%, preferably 10 to 40%, by dry mass based on the total dry mass of the masterbatch; a method of producing a plastic layer for use as an absorbent layer of a polymer film as defined in the first aspect, the method comprising: - melting granules comprising a thermoplastic resin and an ethylene scavenger compound where the ethylene absorber compound is a diatom present in a total amount of 5% to 30%, preferably 15% to 25% by dry mass based on the total dry mass of the granule - {a dilution of the previous molten mixture with thermoplastic resin - mixing and extruding the mixture obtained previously; and a use of a polymeric film as defined in the first aspect to slow down ripening of fruits and / or vegetables due to ethylene during transport and / or storage when the polymeric film serves as a packaging for fruits and / or vegetables. with vegetables, especially for preserving bananas and tomatoes during transport Lee es

[| | and / or storage. The dependent claims provide preferred or alternative embodiments. lu101435

[0003] Ethylene acts as a plant hormone capable of accelerating the ripening of fruits and vegetables. As the fruits and vegetables become mature they eject ethylene gas, and if said fruits and vegetables are kept in an airtight container, ethylene remains trapped in the container and by its presence will accelerate ripening of these fruits and vegetables and cause a degradation of their properties. It is therefore important to be able to reduce the amount of ethylene in contact with the fruit | 16 and vegetables, especially during periods of transport, in particular the | transport by cargo or truck, and / or storage, in order to limit the ripening and spoilage process of these fruits and vegetables. A commonly used solution to absorb ethylene is the use of closed sachets comprising among other things potassium permanganate which by a chemisomtion process will capture ethylene. A major disadvantage of this method is that the potassium permanganate cannot come into contact with food and therefore requires the use of these sachets to contain the potassium permanganate. Even in this case, contact with food, eg continued | to a possible rupture of a sachet, could not be excluded. | 26 [0004] Surprisingly, it has been found that it is possible to slow down the ripening of fruits and vegetables, in particular bananas and tomatoes, due to ethylene during in particular transport, in particular transport by cargo and crazy. truck, and / or storage, using a polymer film, in particular a plastic film, monolayer or multilayer packaging comprising a layer comprising a resin, in particular a thermoplastic resin, encapsulating ethylene absorbers being diatoms, in particular CelaWhite ™ and / or CELATOM® LCS-3 and / or Celite® Super Floss and in which in particular the layer has a thickness greater than or equal to 10 μm and less than or equal to 100 μm.

[0008] The ethylene absorber compound may comprise, consist essentially of or consist of diatoms. According to one aspect, diatoms have a specific surface area BET = 15.0 mg, 2 17.0 mfg, = 20.0 mYg, = 25.0 mg and £ 200 mg, $ 170 mg, <130 mg, <100 mg, = 80 mela, "50 mPa, = 45 m ¥ g, <40 mg, <35 mg, or = 30 mYo. Diatoms

LL

| | 3 serving as an ethylene absorber, unlike potassium permanganate, absorb ethylene via a physisomtion. Diatoms serving as an ethylene lu101435 absorber have the advantage of being thermally stable, unlike potassium permanganate. Diatoms have the advantage of being approved for contact with food te! as required by the European Food Safety Authority (EASA) and the United States Food and Drug Administration (FDA). Diatoms also have the advantage of being able to absorb gases other than ethylene, in particular | Diatoms can also advantageously absorb gases which generate bad odors. The diatoms serving as ethylene absorber may comprise a catalyst, in particular an ethylene cracking catalyst. Preferably, the diatoms comprise, consist essentially of, or consist of CelaWhite ™ and / or CELATOM® LCS-3 and / or Celite® Super Floss.

[0008] According to another aspect, the diatoms can be encapsulated in paint and advantageously absorb the gases generating bad odors.

As used herein, the phrase "consists or consisting essentially of" is intended to limit the scope of a statement or claim to specified materials or steps and those which do not materially affect the material or steps. fundamental and new characteristics of the invention.

[0008] The absorbent layer comprises, consists essentially of or | consists of a resin, in particular a thermoplastic resin, and the compound | ethylene absorber where the ethylene absorber compound is encapsulated in the / resin. The absorbent layer may comprise a catalyst, in particular a | Ethylene cracking catalyst. The absorbent layer has in particular | thickness = 10 µm, = 15 µm, = 20 µm, = 25 µm and / or $ 100 µm, € 85 µm, £ 70 | µm, € 55 µm, £ 40 µm, <30 µm. | [0009] In the absorbent layer, the ethylene absorber compound is | in particular present in an amount 2 1%, = 2%, 23% and / or = 30%, <25%, = <| 30 20%, 17%, = 15%, € 13%, € 10%, <= 8% by dry mass based on the total dry mass of the resin encapsulating the ethylene absorber and | composed of etnylene absorber. | | |

[0010] The resin encapsulating the ethylene absorber comprises, consists: essentially of, or consists of a natural resin or a synthetic 0101435 resin. Preferably, the resin encapsulating the ethylene absorber comprises, consists essentially of, or consists of a thermoplastic resin. The thermoplastic resin is selected from the group consisting of low density polyethylene (LDPE), high density polyethylene (HDPE), polypropylene (PP), polyvinyl chloride (PVC), polyethylene terephthalate (PET), polycarbonate (PC), polystyrene (PS), polyamide (PA), ethylene vinyl alcohol (EVOH), polyvinylidene chloride (PVDC), polylactic acid (PLA), and mixtures thereof. Preferably, the thermoplastic resin comprises, consists essentially of, or consists of low density polyethylene. The resin encapsulating the ethylene absorber can also comprise, consist essentially of, or consist of latex,

[0011] The polymer film can be a single-layer polymer film consisting of the resin, in particular the thermoplastic resin, comprising the ethylene absorber. The polymeric film may be a multilayer polymeric film, that is, comprising at least two layers and wherein at least one layer of the multilayer polymeric film consists of the resin comprising the ethylene absorber. In one aspect of the invention the multilayer polymeric film may consist of a two-layer polymeric film, the resin layer comprising the ethylene absorber possibly being the food contact layer or the outer layer. In another aspect of the invention the polymer film is a multilayer polymer film comprising at least three polymer layers, at least one of which consists of the resin comprising the ethylene absorber. The layer consisting of the resin comprising the ethylene absorber may be an outer layer, that is to say the inner layer in contact with food, or else the outer layer, that is to say the layer. furthest from the food, or the layer consisting of the resin comprising the efhyiene absorber may be an intermediate layer of said multilayer polymeric film having at least three layers.

[0012] In multilayer polymer films, the layers not consisting of the layer consisting of the resin comprising the ethylene absorber, are of

| preferably polymer layers comprising, consisting essentially of: or consisting of resins, in particular thermoplastic, permeable to gases. 11101435 Gas permeable thermoplastic resins are selected from the group consisting of low density polyethylene (LDPE), high density polyethylene (HDPE), polypropylene (PP), polyvinyl chloride (PVC), polyethylene terephthalate (PET), polycarbonate (PC), polystyrene (PS), polyamide (PA), ethylene vinyl alcohol (EVOH), polyvinylidene chloride (PVDC), polylactic acid (PLA), and their mixtures. Preferably, the thermoplastic resins permeable to gases comprise, consist essentially of, or consist of polyethylene; low density. Layers not consisting of the layer consisting of the resin comprising the ethylene absorber may also comprise, consist essentially of, or consist of layers of paper, in particular kraft paper. These layers not consisting of the layer consisting of the resin comprising the ethylene absorber have in particular thicknesses 2 10 μm, = 15 μm, = 20 μm, 2 25 μm andfou = 100 μm, $ 85 μm, £ 70 μm , = 55 µm, <40 µm, = 30 µm.

[0013] Preferably, the polymeric film comprises only materials approved for contact with food as required by the Authority | European Food Safety 20 (EASA) and the United States Products Agency | food and drugs (FDA). Advantageously, the polymer film can be reused several times, unlike sachets containing potassium permanganate.

The absorbent layer, when the absorbent layer consists of a thermoplastic resin encapsulating the ethylene absorber, may be produced by a method comprising: - the melting of granules comprising the thermoplastic resin and the compound. ethylene absorber where the ethylene absorber compound is a diatom in particular present in a total amount = 5%, = 7%, = 10%, = 12%, = 15% and / or 40%, <30%, = 27 %, = 25%, = 22%, = 20% by dry mass based on the total dry mass of the granule - the dilution of the previous melted mixture with thermoplastic resin, and - the mixing and extrusion of the mixture obtained previously .

10015] The method of making the single-layered or multi-layered plastic film can be accomplished by methods known in the art of plastic film making. The method can comprise the extrusion, in particular simultaneous or sequential, of the different layers. In particular, each layer can be obtained by melting the resin and / or granules corresponding to the desired composition for said layer, kneading, and in particular extruding the layer in the desired shape, via a die.

[0016] The granules comprising, consisting essentially of, or consisting of the thermoplastic resin and the ethylene absorber compound can be produced by a method comprising: - mixing the thermoplastic resin in a molten state with the ethylene absorber compound. ethylene - the removal of water or water vapor from the mixture of ethylene absorber compound and the thermoplastic resin in the molten state, and - the solidification of the mixture obtained previously, in particular in the form of granules.

[0017] During the production of the granules comprising the thermoplastic resin and the ethylene absorber compound, so that the ethylene absorber compound is not saturated with water or water vapor during its encapsulation in the thermoplastic resin, it It is preferable to remove water andor water vapor from the mixture of the thermoplastic resin in a molten state with the ethylene scavenger compound. The step of controlling and / or removing the water during the encapsulation of the ethylene absorber in the thermoplastic resin can be carried out by methods known to those skilled in the art. For example, the production of the granules may comprise mixing the thermoplastic resin in a molten state with the ethylene scavenger compound in an extruder equipped with a system for pumping water vapor released during mixing.

[0018] Embodiments of the invention will now be described, by way of example only, with reference to the images which accompany it. FIG. 1 is a representation of the ripening of a banana in a film. EE

| 7 three-layer plastic according to the invention; and; Figure 2 is a representation of a comparative example. lu101435

Example 4: The maturation of 2 bananas after 15 days was observed during their conservation in a 3-layer plastic film. In the comparative example (Figure 2) the 3 layers consist of low density polyethylene, while in the example according to the invention, the inner layer is a layer of low density polyethylene where the ethylene absorber is encapsulated, the ethylene absorber being the CelaWhite ™ diatom, and where the ethylene absorber content in the intermediate layer is 5% by dry mass based on the total dry mass of the thermoplastic resin encapsulating the ethylene absorber compound and the ethylene scavenger compound of the inner layer. In the comparative example and that in accordance with the invention, all the layers have a thickness of 20 µm.

In Figure 2, we can clearly see that after 15 days of storage in a conventional plastic film, the banana has become ripe with several black spots already present. In comparison, in Figure 1, after 15 days of storage in a plastic film according to the invention, the banana has matured much less and exhibits much less black spots, thus confirming that the banana had suffered less from the effect of ethylene.

[0021] According to other aspects, the invention provides embodiments defined as below:

1. Polymer film for packaging food articles, in particular polymer film having a thickness greater than or equal to 10 μm and less than or equal to 100 μm, in which the polymer film comprises an absorbent layer, in particular permeable to gases, the absorbent layer comprising a resin, in particular a thermoplastic resin, in particular of low density polyethylene, and an ethylene absorber compound encapsulated in the resin where the ethylene absorber compound comprises a diatom.

2, Polymer film according to embodiment 1, where the polymer film comprises: - an inner layer,

- at least one intermediate layer, and - an outer layer, lu101435 where - the inner layer andfor an intermediate intermediate layer comprises a polymer film according to embodiment 1, and - the other layers comprise a resin permeable to gases, in particular a thermoplastic resin, in particular in low density polyethylene.

3. Polymer film according to embodiment 1 or 2, where the diatom has a specific surface area greater than or equal to 15.0 m ’/ g and less than or equal to 50.0 m% g as measured by the BET method. 4, Polymer film according to any one of embodiments 1 to 3, where the diatom is present in a total amount of 1 to 20%, preferably 3 to 8%, by dry mass based on the total dry mass of the absorbent layer.

5. Polymeric film according to any one of embodiments 1 to 4, where the diatom comprises CelaWhite ™ and / or CELATOM® LCS-3 andfou Celite® Super Floss.

8. Plastic masterbatch for manufacturing a plastic film according to any one of embodiments 1 to 5, where the plastic masterbatch comprises a resin, in particular polyethylene, and diatom, in particular where the diatom is present in the masterbatch. plastic in a total amount of 5 to 50%, preferably 10 to 40%, by dry mass based on the total dry mass of the masterbatch.

7. Food items, in particular bananas or tomatoes, packaged with a polymer film according to any one of embodiments 1 to 5.

8. A method of producing a plastic layer for use as an absorbent layer according to any one of embodiments 1 to 5, the method comprising:

- the fusion of granules comprising a thermoplastic resin and a compound | ethylene absorber where the ethylene absorber compound is a lu101435 diatom present in a total amount of 5% to 30%, preferably 15% to 25% by dry mass based on the total dry mass of the granule - the dilution of the previous molten mixture with the thermoplastic resin - the mixture and the extrusion of the mixture obtained previously.

8. A method of producing a granule comprising a thermoplastic resin and an ethylene scavenger compound wherein the ethylene scavenger compound is a diatom present in a total amount of 5% to 30%, preferably 15% to 25. % by dry mass based on the total dry mass of the granule, the granule possibly being used in particular in the method according to embodiment B, the method comprising: - mixing the thermoplastic resin in a molten state with the ethylene absorber compound - Fe removal of water or water vapor from the mixture of ethylene absorber compound and the thermoplastic resin in the molten state, and - solidification of the mixture obtained previously.

10. Use of the polymer film according to any one of embodiments 1 to 5 to slow down the ripening of fruits and / or vegetables due to ethylene during transport and / or storage when the polymer film is used as packaging for fruits and / or vegetables. vegetables, especially for preserving bananas and tomatoes during transport and / or storage.

The

Claims (1)

W404 VS 10 | Claims lu101435 1. Polymer film for packaging food articles, in particular polymer film having a thickness greater than or equal to 10 μm and less than or equal to 100 μm, in which the polymer film comprises an absorbent layer, in particular permeable to gases, the absorbent layer comprising a resin, in particular a thermoplastic resin, in particular of low density polyethylene, and an ethylene absorber compound encapsulated in the resin where the ethylene absorber compound comprises a diatom. 19 2. Polymer film according to claim 1, wherein the polymer film comprises: - an inner layer, - at least one intermediate layer, and - an outer layer, where - the inner layer and / or an intermediate layer comprises the absorbent layer, and the other layers comprise a resin permeable to gases, in particular a thermoplastic resin, in particular low density polyethylene. 3. Polymeric film according to claim 1 or 2, wherein the diatom has a specific surface area greater than or equal to 15.0 mg and less than or equal to 50.0 m 2 / g as measured by the BET method. AT. Polymeric film according to any of the claims | to 3, where the diatom is present in a total amount of 1 to 20%, preferably 3 to 8%, by dry mass based on the total dry mass of the absorbent layer. 5. Polymeric film according to any one of claims 1 to 4, wherein the diatom comprises CelaWhite ™ andfou CELATOM® LCS-3 andfou Celite® Super Floss. | 8. Plastic masterbatch for manufacturing the absorbent layer of a film: polymer according to any one of claims 1 to 5, where the plastic masterbatch 11101435 comprises a resin, in particular polyethylene, and fa diatom, in particular where {a diatom is present in the plastic masterbatch in a total amount of 5 to 50%, preferably 10 to 40%, by dry mass based on the total dry mass of the masterbatch. 7. A method of producing a plastic layer for use as an absorbent layer of a polymeric film according to any one of claims 1465, the method comprising: - melting granules comprising a thermoplastic resin and an absorbent compound. ethylene where the ethylene scavenger compound is a diatom present in a total amount of 5% to 30%, preferably 15% to 25% by dry mass based on the total dry mass of the granule - the dilution of the previous molten mixture with thermoplastic resin - mixing and extrusion of the previously obtained mixture. 8. Method of producing a granule for use in the method according to | Claim 7, the granule comprising a thermoplastic resin and an ethylene scavenger compound wherein the ethylene scavenger compound is a | diatom present in a total amount of 5% to 30%, preferably 15% to% by dry mass based on the total dry mass of the granule, the method comprising: mixing the thermoplastic resin in a molten state with the ethylene scavenger compound - the removal of water or water vapor from the mixture of ethylene scavenger compound and the thermoplastic resin in the molten state, resulting in solidification of the previously obtained mixture. 8. Use of the polymer film according to any one of claims 1 to 5 for slowing down the ripening of fruits and vegetables due to ethylene during transport and / or storage when the polymer film is used as packaging for fruits. ALLSetou with vegetables, especially for preserving bananas and tomatoes + during transport and / or storage. lu101435 a |