EP2730698A1 - Matériau d'emballage de produits alimentaires et emballage pour produit alimentaire - Google Patents

Matériau d'emballage de produits alimentaires et emballage pour produit alimentaire Download PDF

Info

Publication number: EP2730698A1
Authority: EP; European Patent Office
Prior art keywords: coating; binder; platy; cellulose; material according
Prior art date: 2012-11-09
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Withdrawn

Application number

EP13397537.5A

Other languages

German (de)

English (en)

Inventor

Leena Kunnas

Annikki Siren

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

UPM Kymmene Oy

Original Assignee

UPM Kymmene Oy

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

2012-11-09

Filing date

2013-11-05

Publication date

2014-05-14

2013-11-05 Application filed by UPM Kymmene Oy filed Critical UPM Kymmene Oy

2014-05-14 Publication of EP2730698A1 publication Critical patent/EP2730698A1/fr

Status Withdrawn legal-status Critical Current

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Classifications

- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H27/00—Special paper not otherwise provided for, e.g. made by multi-step processes
- D21H27/10—Packing paper
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H19/00—Coated paper; Coating material
- D21H19/36—Coatings with pigments
- D21H19/38—Coatings with pigments characterised by the pigments
- D21H19/40—Coatings with pigments characterised by the pigments siliceous, e.g. clays
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H19/00—Coated paper; Coating material
- D21H19/36—Coatings with pigments
- D21H19/44—Coatings with pigments characterised by the other ingredients, e.g. the binder or dispersing agent

Definitions

the invention relates to a material for packaging of foodstuff. Further, the invention relates to a package for foodstuff.
bread is typically packaged in either a package made of a material coated with plastic, a plastic package, or a paper package.
Plastic or a packaging material coated with plastic is normally used when the aim is to keep the foodstuff, such as fresh bread, saleable for several days.
a material coated with plastic typically prevents the surface of for example said fresh bread from drying, but at the same time it causes softening of the surface of the product.
Paper material in turn, is typically used when the aim is to keep the surface of the foodstuff, such as fresh bread to be packed, crispy.
said fresh bread typically has to be sold on the packaging day, because otherwise the surface of said bread dries too much and the crust becomes too thick.
the material for packaging food, and/or the food package according to the invention may keep, for example, the crust of fresh bread more crispy compared with a plastic package of prior art or a package coated with plastic. Nevertheless, the product packed in the material according to the invention may remain saleable longer than, for example, when a paper bag of prior art is used as the packaging material.
the material for packaging foodstuff according to the invention is primarily characterized in what will be presented in the appended claim 1.
the food package according to the invention is primarily characterized in what will be presented in the appended claim 16.
the material suitable for packaging foodstuff comprises a base paper coated on at least one side with a coating comprising
the total dry weight of said platy coating pigment and said binder(s) contains 20 to 60 wt% of said binder(s), more preferably between 25 and 55 said binders, and the total dry weight of said platy coating pigment and the binder(s) constitutes at least 70 wt% of said coating.
the coating comprises 1 to 5 coating layers, more preferably 1 to 4 coating layers.
one binder comprises between 50 and 100 wt% of binders used in one coating layer.
starch having amylopectin content between 70 and 100 wt% comprises at least 50 wt% of binders in at least one of the coating layers.
carboxymethyl cellulose comprises at least 50 wt% of binders of at least one of the coating layers.
the platy coating pigment comprises at least 50 wt% of kaolin.
the coating comprises at least 2 coating layers, from which at least one comprises nanofibrillar cellulose as the binder.
nanofibrillar cellulose comprises at least 50 wt% of binders of at least one of the coating layers.
the content of the coating in dry weight, is 1 to 17 g per m 2 , more preferably between 3 and 14 g per m 2 .
the content of the coating in one coating layer, in dry weight is 1 to 12 g per m 2 , more preferably between 2 and 8 g per m 2 .
the water vapour transmission rate of the material at an air humidity of 50% and a temperature of 23°C is 80 to 400 g per m 2 per day, more preferably 120 to 280 g per m 2 per day.
the water vapour transmission rate of the material at an air humidity of 50% and a temperature of 23°C is 2 to 20 g per m 2 per day, more preferably 3 to 12 g per m 2 per day.
food package comprises paper, wherein at least 50% consists of material in which base paper has been coated on at least one side with a coating, the coating comprising
the material according to the invention is intended for the packaging of bakery products, such as hamburgers or pastries.
the material according to the invention for packaging foodstuffs is intended for the packaging of fresh bread.
the material for packaging foodstuff according to the invention is intended for the packaging of dry products, such as dried bread and/or crispbread.
the material and the food package according to the invention have several advantages.
the material according to the invention can be manufactured in such a way that appropriate water permeability, water vapour permeability as well as air permeability are achieved. This has not been possible with packaging materials of prior art.
the material according to the invention for packaging foodstuffs, as well as the food package according to the invention can be manufactured in an environmentally friendly way so that the material and/or food package can be, for example, recycled and/or composted and/or burnt after usage.
the product is very suitable for use with foodstuffs, and it may enable the product to be packaged to maintain the desired properties longer, for example the maintenance of the crust of fresh bread crispy for a longer time so that the bread is still saleable.
gsm refers to grams per square meter (g/m 2 ).
RH relates to relative humidity of the air.
plaque coating pigment refers to coating pigments present in a platy form.
plaque refers to a structure in which one dimension is substantially smaller than the two other dimensions of the structure. Preferably, one dimension is at least 2 or at least 3 times, more preferably at least 5 times or at least 10 times, and most preferably at least 20 times smaller than the two other dimensions of the structure.
base paper 4 refers to paper of prior art comprising natural fibres as its main raw material. Further, the base paper may comprise, for example, one or more fillers and/or additives. The base paper is preferably uncoated paper.
natural fibre refers to any plant material that contains cellulose.
the natural fibre may be wood-based.
the wood may be softwood, such as spruce, pine, silver fir, larch, Douglas fir, or Canadian hemlock; or hardwood, such as birch, aspen, poplar, alder, eucalyptus, or acacia; or a mixture of softwood and hardwood.
wood-based raw materials may include agricultural waste, grasses or other plant materials, such as straw, leaves, bark, seeds, legumes, flowers, tops, or fruit, which have been obtained from cotton, corn, wheat, oat, rye, barley, rice, flax, hemp, Manila hemp, sisal hemp, jute, ramee, kenaf hemp, bagasse, bamboo, or reed.
the natural fibre comprises chemically pulped natural fibre, that is, pulp made in a chemical pulping process.
the content of chemically pulped natural fibres in all the natural fibres used in the base paper product is thus at least 70 wt%, at least 80 wt% or at least 90 wt%, advantageously at least 95 wt% or 98 wt%.
all the natural fibres used in the base paper are chemically pulped natural fibres.
the diameter of the natural fibres is normally 15 to 25 ⁇ m and the length more than 500 ⁇ m, but the present invention is not intended to be limited to these parameters.
WVTR water vapour transmission rate, i.e. water vapour barrier at conditions of RH 50%, temperature 23°C.
KIT refers to a determining method according to the Tappi standard (Tappi T559 cm02) for paper and paperboard with oil and grease resistance.
Cobb refers to the so-called Cobb value measured according to the standard ISO 535:1991.
Air permeability is measured according to the standard ISO 5636-5:2003.
Water vapour permeability is measured according to the standard ISO 2528:1995.
Cobb refers to Cobb-value that is measured according to ISO 535:1991 (valid in 2011).
nanofibrillar cellulose refers to a collection of isolated cellulose microfibrils or microfibril bundles derived from cellulose raw material.
nanofibrillar cellulose NFC
nanocellulose nanocellulose
microfibrillar cellulose cellulose nanofiber
nano-scale fibrillated cellulose nanofibrillated cellulose (MFC)
MFC microfibrillated cellulose
Nanofibrillar cellulose described in this application is not the same material as the so called cellulose whiskers, which are also known as: cellulose nanowhiskers, cellulose nanocrystals, cellulose nanorods, rod-like cellulose microcrystals or cellulose nanowires.
cellulose whiskers which are also known as: cellulose nanowhiskers, cellulose nanocrystals, cellulose nanorods, rod-like cellulose microcrystals or cellulose nanowires.
similar terminology is used for both materials, for example by Kuthcarlapati et al. (Metals Materials and Processes 20(3):307-314, 2008 ) where the studied material was called "cellulose nanofiber” although they clearly referred to cellulose nanowhiskers.
these materials do not have amorphous segments along the fibrillar structure as fibril cellulose, which leads to more rigid structure.
Cellulose whiskers are also shorter than fibril cellulose.
the nanofibrillar cellulose is prepared normally from cellulose raw material of plant origin.
the raw material can be based on any plant material that contains cellulose.
the raw material can also be derived from certain bacterial fermentation processes.
Plant material may be wood.
Wood can be from softwood tree such as spruce, pine, fir, larch, douglas-fir or hemlock, or from hardwood tree such as birch, aspen, poplar, alder, eucalyptus or acacia, or from a mixture of softwoods and hardwoods.
Non-wood material can be from agricultural residues, grasses or other plant substances such as straw, leaves, bark, seeds, hulls, flowers, vegetables or fruits from cotton, corn, wheat, oat, rye, barley, rice, flax, hemp, manila hemp, sisal hemp, jute, ramie, kenaf, bagasse, bamboo or reed.
the cellulose raw material could be also derived from cellulose-producing micro-organisms.
the micro-organisms can be of the genus Acetobacter, Agrobacterium, Rhizobium, Pseudomonas or Alcaligenes, preferably of the genus Acetobacter and more preferably of the species Acetobacter xylinum or Acetobacter pasteurianus.
Microfibrils of the nanofibrillar cellulose have typically high aspect ratio: the length might exceed one micrometer while the number-average diameter is typically below 200 nm.
the diameter of microfibril bundles can also be larger but generally less than 1 ⁇ m.
the smallest microfibrils are similar to so called elementary fibrils, which are typically 2-12 nm in diameter.
the dimensions of the fibrils or fibril bundles are dependent on raw material and disintegration method.
the nanofibrillar cellulose may also contain some hemicelluloses; the amount is dependent on the plant source.
Nanofibrillar cellulose from cellulose raw material, cellulose pulp, or refined pulp is carried out with suitable equipment such as a refiner, grinder, homogenizer, colloider, friction grinder, ultrasound sonicator, fluidizer such as microfluidizer, macrofluidizer or fluidizer-type homogenizer.
suitable equipment such as a refiner, grinder, homogenizer, colloider, friction grinder, ultrasound sonicator, fluidizer such as microfluidizer, macrofluidizer or fluidizer-type homogenizer.
the nanofibrillar cellulose is preferably made of plant material.
One alternative is to obtain the fibrils from non-parenchymal plant material where the fibrils are obtained from secondary cell walls.
One abundant source of cellulose fibrils is wood fibres.
the nanofibrillar cellulose is manufactured by homogenizing wood-derived fibrous raw material, which may be chemical pulp. The disintegration in some of the above-mentioned equipments produces fibrils which have the diameter of only some nanometers, which is 50 nm at the most and gives a dispersion of fibrils in water.
the fibrils can be reduced to size where the diameter of most of the fibrils is in the range of only 2-20 nm only.
the fibrils originating in secondary cell walls are essentially crystalline with degree of crystallinity of at least 55 %.
the surface of original, chemically unmodified cellulose in the fibrous starting material can be charged ionically in a chemical pretreatment before the mechanical disruptive treatment. In this way the internal bonds in the cellulose between the microfibrils is weakened, and it is thus possible to enhance the separation of fibrils.
Some methods for charging the cellulose can be given as example.
Oxidation pretreatment of cellulose before the mechanical disruptive treatment is a promising method for surface modification of native cellulose, by which carboxylate and aldehyde functional groups can be introduced into solid native cellulose under aqueous and mild conditions.
TEMPO 2,2,6,6-tetramethyl-1-piperidine N-oxide
carboxymethylated cellulose examples of anionically charged nanofibrillar cellulose where the anionic charge is due to a dissociated carboxylic acid moiety.
Cellulose derivative where the cellulose contains quaternary ammonium groups is an example of cationically charged nanofibrillar cellulose.
the material 2 according to the invention for packaging of foodstuffs comprises base paper 4 coated on one side or both sides.
the base paper 4 is coated on one side only.
the coating 3 comprises one, two, three, four or five coating layers. If the coating 3 comprises more than one coating layer on one side of the base paper, the coating layers are preferably one on another as shown in Figures 1 b and 1 c.
the first coating layer 3a is preferably on the base paper 4.
the coating 3 comprises platy coating pigment(s) and binder(s) comprising or consisting of carboxymethyl cellulose (CMC) and/or nanofibrillar cellulose, and/or starch having amylopectin content between 70 and 100 wt%.
CMC carboxymethyl cellulose
binder(s) comprising or consisting of carboxymethyl cellulose (CMC) and/or nanofibrillar cellulose, and/or starch having amylopectin content between 70 and 100 wt%.
amylopectin content of said starch is between 80 and 100 wt%, or between 85 and 100 wt%, more preferably between 90 and 100 wt%, or between 95 and 100 wt%, and most preferably between 98 and 100 wt%, or between 99 and 100 wt%.
the platy coating pigment comprises talc, kaolin, and/or mica.
the content of kaolin in the platy coating pigments used in the coating 3 is 50 wt%, 60 wt%, 70 wt%, 80 wt%, 90 wt%, 95 wt%, or 100 wt%, including any ranges and partial ranges.
properties of the kaolin are not chemically changed.
the platy coating pigment comprises talc, kaolin, and/or mica.
the content of kaolin in the platy coating pigments used in the first coating layer 3a, the second coating layer 3b, the third coating layer 3c and/or the fourth coating layer 3d is 50 wt%, 60 wt%, 70 wt%, 80 wt%, 90 wt%, 95 wt%, or 100 wt%, including any ranges and partial ranges.
the platy pigments comprises between 50 and 100 wt%, more preferably at least 60 wt%, at least 70 wt%, or at least 80 wt%, and most preferably at least 90 wt%, or at least 95 wt% of the all coating pigments used in the coating.
the platy pigments comprises between 50 and 100 wt%, more preferably at least 60 wt%, at least 70 wt%, or at least 80 wt%, and most preferably at least 90 wt%, or at least 95 wt% of the all coating pigments used in the first coating layer 3a, the second coating layer 3b, the third coating layer 3c and/or the fourth coating layer 3d.
one binder comprises at least 50 wt%, or at least 60 wt%, more preferably at least 70 wt.% or at least 80 wt% and most preferably at least 90 wt% of all binders in one coating layer, i.e. in the first coating layer 3a, the second coating layer 3b, the third coating layer 3c and/or the fourth coating layer 3d.
the different coating layers may comprise different binder(s).
At least one of the coating layers comprises
the first coating layer 3a comprises
the second coating layer 3b preferably comprises
the third coating layer 3c preferably comprises
the fourth coating layer 3d preferably comprises
the coating preferably comprises at least one additional coating layer having another main binder, i.e. comprising at least 50 wt% of the binder(s) in said another coating layer.
the coating comprises two coating layers, and the first coating layer comprises starch having amylopectin content between 70 and 100 wt%, and kaolin.
the total dry content of the coating in the first coating layer 3a, the second coating layer 3b, the third coating layer 3c and/or the fourth coating layer 3d is between 1 and 12 gsm, or between 1.5 and 8 gsm, more preferably between 2 and 6 gsm, or between 3 and 5 gsm.
the total dry content of the coating 3 according to the invention is preferably 1 to 17 gsm, or 3 to 16 gsm, more preferably 5 to 15 gsm, or 7 to 14 gsm, and most preferably 8 to 13 gsm, or 9 to 12 gsm, irrespective of whether the base paper is coated on one side or both sides.
the grammage of the base paper 4 is between 35 and 90 gsm, or between 40 and 80 gsm, or between 45 and 75 gsm.
the grammage of the material 2 according to the invention, comprising base paper 4 and coating 3 is between 35 and 90 gsm, or between 40 and 80 gsm, or between 45 and 75 gsm.
the grammage of the material 2 according to the invention, comprising base paper 4 and coating 3 is between 90 and 300 gsm, more preferably between 110 and 250 gsm, or between 150 and 200 gsm.
the grammage of the base paper 4 is between 90 and 300 gsm, more preferably between 110 and 250 gsm, or between 150 and 200 gsm.
the grammage of the material 2 according to the invention, comprising base paper 4 and coating 3 is between 90 and 350 gsm, more preferably between 110 and 300 gsm, or between 150 and 250 gsm.
the platy coating pigment is substantially dry when it is applied as a coating 3 onto the base paper 4.
the platy coating pigment is in the form of an aqueous mixture or a so-called slurry when applied as a coating 3 onto the base paper 4.
the coating preferably comprises less than 2 gsm or less than 1.5 gsm polymers, more preferably less than 1 or less than 0.5 gsm polymers, and most preferably less than 0.2 or less than 0.1 gsm plastic polymers, such as, for example, PLA, PE, PP, PCL, PEA, PHA, PHB, PHBH, CPLA, PBS, and/or AAC.
plastic polymers such as, for example, PLA, PE, PP, PCL, PEA, PHA, PHB, PHBH, CPLA, PBS, and/or AAC.
the properties of a mixture that comprises platy coating pigment, such as kaolin, and said coating binder(s), can be adjusted, for example by changing the thickness of the coating layer 3 so that the barrier properties of the coating 3 are typically improved when the thickness of the coating layer 3 is increased. Furthermore, the properties can be influenced, among other things, by changing the relative contents of the platy coating pigment and said coating binder(s). When the content of the platy coating pigment increases in relation to the content of the binder(s), the viscosity of the coating typically decreases and its porosity increases.
the relative proportion of one or more platy coating pigments in the total content of said one or more platy coating pigments and said coating binder(s) is at least 40 wt% (wherein the content of said binder(s) is not higher than 60 wt% of the total content of said one or more platy coating pigments and the binder(s)), more advantageously 45 to 80 wt% (wherein the content of the binder(s) is 20 to 55 wt%), and even more advantageously 50 to 70 wt% (wherein the content of said binder(s) is 30 to 50% of the total content of said one or more platy coating pigments and said binder(s)).
the amount of the pigment in the coating is between 40 and 85 dry wt%, or between 45 and 80 dry wt%, more preferably between 50 and 70 dry wt% or between 52 and 68 dry wt%.
the amount of the pigment in the first coating layer 3a, the second coating layer 3b, the third coating layer 3c and/or the fourth coating layer 3d is between 40 and 85 dry wt%, or between 45 and 80 dry wt%, more preferably between 50 and 70 dry wt% or between 52 and 68 dry wt%.
the amount of said coating binder(s) i.e. carboxymethyl cellulose (CMC) and/or starch having amylopectin content between 70 and 100 wt%, and/or nanofibrillar cellulose
the amount of said coating binder(s) i.e. carboxymethyl cellulose (CMC) and/or starch having amylopectin content between 70 and 100 wt%, and/or nanofibrillar cellulose
the amount of said coating binder(s) i.e. carboxymethyl cellulose (CMC) and/or starch having amylopectin content between 70 and 100 wt%, and/or nanofibrillar cellulose
the amount of said coating binder(s) i.e. carboxymethyl cellulose (CMC) and/or starch having amylopectin content between 70 and 100 wt%, and/or nanofibrillar cellulose
the proportion of the coating binder(s) to the platy coating pigment is increased, it may be possible to reduce the total quantity of the coating 3 used. In a corresponding manner, if the proportion of the platy coating pigment to the binder(s) is increased, a thicker coating layer may be needed.
the pigment coating can be applied on one side of the base paper, or it can be applied on both sides of the base paper.
the pigment coating may comprise a single coating layer, or it may comprise several coating layers, such as two, three or four coating layers.
For coating the base paper it is possible to use solutions of prior art, such as one or more of the following: blade coating, flooded nip application, nozzle application, short dwell time application, rod coating, air brush coating, film transfer coating, curtain coating, or spray coating.
at least one coating layer is formed by film transfer coating, rod coating, or blade coating.
the content of the coating 3 in the material 2 is at least 1 gsm and not more than 7 gsm, more advantageously not more than 6 gsm or 5 gsm.
the water vapour transmission rate (WVTR, 23°C, RH 50%) of the finished material is thus 80 to 400 gsm per day, for example 120 to 280 gsm per day.
the grease resistance of the finished material measured by the Oil Unger (60 s) method, is thus 1.3 to 2.5, for example 1.4 to 2.0.
the water resistance of the finished material, measured by the Cobb (1800 s) test is thus 20 to 45, for example 22 to 30.
the KIT value of such material is thus 1 to 2.
the ratio between the platy coating pigment the binder(s) is thus between 50:50 and 70:30.
the material 2 having one or more of the above-mentioned properties may be suitable for the packaging of, for example, fresh bread.
the content of the coating 3 in the material 2 is 6 to 14 gsm, for example 8 to 12 gsm.
the water vapour transmission rate (23°C, RH 50%) of the finished material 2 is thus 2 to 20 gsm per day, for example 3 to 12 gsm per day.
the grease resistance of the material 2, measured by the Oil Unger (60 s) method is thus 0.3 to 2.0, more preferably 0.3 to 1.0.
the water resistance of the material 2, measured by the Cobb (1800 s) test is thus 17 to 35, for example 18 to 25.
the KIT value is thus 4 to 12, for example 5 to 10.
the coating pigment to binder(s) ratio of such a material 2 is formed so that the content of the binder(s) is at least 40 wt% or at least 50 wt%.
a material 2 having one or more of the above listed properties may be suitable for the packaging of bakery products, such as, for example, greasy and dry foodstuffs and/or greasy and moist foodstuffs. Such foodstuffs may include, for example, hamburgers or pastries.
the grease resistance of the material 2 is typically improved, which is useful, for example, in the packaging of greasy products.
the pigment coating according to the invention may also comprise other substances than one or more platy coating pigments and the binder(s).
the total content of the platy coating pigment and the binder(s) in the coating 3 is at least 70 wt% or at least 75 wt%, more advantageously at least 80 wt% or at least 85 wt%, and most advantageously at least 90 wt% or at least 95 wt%.
the coating 3 consists totally or substantially totally of one or more platy coating pigments and said coating binder(s).
the coating material 2 according to the invention can be used for forming a food package 1.
the food package 1 is a bag or has a substantially bag-like shape.
the food package 1 may or may not also comprise one or more other materials 5 than the material 2 according to the invention, for example as a so-called "window".
the content of the material 2 according to the invention is at least 50%, more advantageously at least 60% or at least 70%, and most advantageously at least 80% or at least 90% of the surface area of the outer layer of said food package 1.
the material 2 for packaging foodstuffs is used for packaging fresh bread.
the material 2 for packaging foodstuffs is used for packaging bakery products, such as hamburgers or pastries.
the material 2 is used for packaging dry products, such as dried bread and/or crispbread.

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EP13397537.5A 2012-11-09 2013-11-05 Matériau d'emballage de produits alimentaires et emballage pour produit alimentaire Withdrawn EP2730698A1 (fr)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
FI20126176		2012-11-09

Publications (1)

Publication Number	Publication Date
EP2730698A1 true EP2730698A1 (fr)	2014-05-14

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EP2963177A1 (fr) *	2014-07-04	2016-01-06	Danapak Flexibles A/S	Feuille d'emballage pour emballer du fromage, procédés de fabrication et d'emballage associés
CN108130802A (zh) *	2017-12-14	2018-06-08	九洲生物技术（苏州）有限公司	用于火腿肠类食品的包装体
US10214859B2 (en)	2016-04-05	2019-02-26	Fiberlean Technologies Limited	Paper and paperboard products
DE102018118271A1 (de) *	2018-07-27	2020-01-30	Delfortgroup Ag	Leichtes trennbasispapier
CN115012252A (zh) *	2022-06-07	2022-09-06	安徽顺彤包装材料有限公司	一种可降解高光防油纸及其制备方法
WO2022263725A1 (fr) *	2021-06-17	2022-12-22	Kemira Oyj	Composition offrant des propriétés de barrière, son utilisation et produit de type feuille
CN115748292A (zh) *	2022-11-17	2023-03-07	广州荧创科技有限公司	一种生物基食品级水性防油涂料及其制备方法和应用
US11794976B2 (en)	2020-07-30	2023-10-24	The Procter And Gamble Company	Recyclable absorbent article package material
US11846072B2 (en)	2016-04-05	2023-12-19	Fiberlean Technologies Limited	Process of making paper and paperboard products
US12076221B2 (en)	2020-07-30	2024-09-03	The Procter & Gamble Company	Natural fiber-containing packages for absorbent articles
US12090034B2 (en)	2020-07-30	2024-09-17	The Procter & Gamble Company	Recyclable absorbent article package material
US12178692B2 (en)	2020-10-09	2024-12-31	The Procter & Gamble Company	Absorbent article packages with natural fibers and opening features
US12303371B2 (en)	2023-01-25	2025-05-20	The Procter & Gamble Company	Recyclable packages
US12325576B2 (en)	2021-07-30	2025-06-10	The Procter & Gamble Company	Sealed absorbent article package with natural fibers

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