Source: https://www.scribd.com/document/85208154/BFR
Timestamp: 2019-03-19 19:16:41
Document Index: 781143191

Matched Legal Cases: ['§ 2', '§ 64', '§ 3', '§ 64', 'art)24', 'art)24']

BFR | Paperboard | Paper
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This is an unofficial translation. Only the German version is binding.
As of 01.01.2012 Preamble 1. This Recommendation is valid for single and multi-layered commodities (articles, materials) made of paper or paperboard which are intended to come into contact with or affect foodstuffs. 2. This Recommendation is also valid for paper or paperboard which are intended to be used at temperatures up to 90 ° (holding and reheating of food). C For the use at higher temperatures the requirements laid down in Recommendation XXXVI/2 “Paper and paperboard for baking purposes” must be observed; these requirements must also be met by paper and paperboard which are intended to be used in microwave ovens. 3. Paper and filter layers that in their intended use will be subject, for example, to hot extraction (tea bags, boil-in-bag packages, hot filter papers) must comply with the special requirements laid down in Recommendation XXXVI/1 "Cooking paper, hot filter papers and filter layers". 4. In a composite, multi-layered or coated material, if the layer which comes into contact with the foodstuff is made of paper or paperboard it must comply with this Recommendation. Also, except for traces that are harmless to health and have no effect on taste or smell of the foodstuff, there must be no migration of substances from other layers into foodstuffs or on their surface. 5. Methods for testing commodities (materials and articles) made of paper or paperboard are published under the title "Untersuchung von Papieren, Kartons und Pappen für den Lebensmittelkontakt" and can be obtained from the German Pulp and Paper Association (Verband Deutscher Papierfabriken e. V. (VDP), Bonn). 6. To the extent that this and the Recommendations mentioned above under 4. restrict the use of certain production aids and refining agents, the maximum quantities given, if not applied to surface area or otherwise stated, refer to the dry finished product. 7. If in the production of a certain paper or paperboard a particular production aid, on account of its wide spectrum of use, is listed more than once in the Recommendation, the largest maximum amount given is to be taken as the “in total” maximum. Adding the different maximum amounts together is not permissible. 8. The finished paper must not contain more than 0.15 mg/kg pentachlorophenol. 9. It is assumed that under normal conditions of use there is no transfer of metal ions to foodstuffs when their concentration (determined in cold water extract) does not exceed A µg per gram paper, whereby “A“ has the following values: cadmium 0.5, lead 3 and mercury 0.3 µg per gram paper. Testing is not necessary for paper or paperboard intended for contact with dry, non-fatty foodstuffs.
max. Microspheres5 made from a copolymer of vinylidene chloride.15 %.01 %. barium sulfate (free of soluble barium compounds). Xylanase4. based on dry fibres weight. Tetrasodium iminodisuccinate. The initiator. potassium. max. must not be used in the manufacture of food-contact paper or paper board1. calcium sulfate. The function of the microspheres is to reduce the density of the paper. There are no objections to the use of paper or paperboard in the manufacture of commodities in the sense of § 2. titanium oxide.22 %. such as carbonates of calcium and magnesium. 1 2 3 4 5 Detecting the use of prohibited azo dyes according to "Amtliche Sammlung von Untersuchungsverfahren nach § 64 LFGB". Anthraquinone as an accelerator for separating lignin and cellulose from wood pulp. based on the dry fibres weight. No. Bis(4-tertbutylcyclohexyl)peroxidicarbonate may be used. Azo dyes after Annex 1. Seite 2 von 16 . Wood pulp. Para. 0. Fibres of synthetic high polymers. 7 (§ 3) of the Commodities Regulation (Bedarfsgegenständeverordnung). 1 of the Food and Feed Code (Lebensmittel. The finished paper or paperboard must have no preserving effect on the foodstuffs with which they come into contact2. 6. 1. Raw materials The following raw materials may be used: I. bleached or unbleached. based on the finished paper.5 %. insoluble minerals that are harmless to health. max. or mixed silicates of sodium. 3. method B 82. 0. DIN EN 1104: “Determination of the transfer of antimicrobial constituents” Most of the anthraquinone is washed out during manufacture. calcium. based on dry fibres weight.und Futtermittelgesetzbuch (LFGB)). Fibrous materials: 1. Diethylene triamine pentamethylene phosphonic acid. Potassium sulfite. methyl methacrylate and acrylonitrile. Fillers: Natural and synthetically produced. filled with isobutene. 0. 3. magnesium. provided they comply with the prevailing requirements of food law. max. Additives to raw materials: 1. 4. 2. There must be no detectable residual activity of this enzyme in the finished product. 4. III.17 %. 0. 5. Recycled fibres made from paper or paperboard provided that the finished articles comply with the requirements in the annex of this Recommendation.02-2. II. calcium sulfoaluminate (satin white).Federal Institute for Risk Assessment 10. max. 11. 0. max. provided they are suitable for their intended purpose and comply also with the following conditions: A. silicon dioxide. 1 kg of dry paper must not contain more than 30 mg anthraquinone3. 2. Natural and synthetic cellulose fibres.45 % based on the micropheres. silicates. No. bleached or unbleached. aluminium and iron.
4.Federal Institute for Risk Assessment B.2. as well as the chemically modified starches listed in Annex 2. nitrogen. sodium. Dialdehydstärke". Seite 3 von 16 . 0.2 Starch acetate.08). also treated with sodium. 3.2. max. 3. max. 2. 4.5 % acetyl groups) 3.2). 0.1 Native7 starch. max.2. physically modified starch.4 Treated with 3-chloro-2-hydroxypropyl trimethyl ammonium chloride and succinic anhydride (specification of starch: epichlorohydrin. nitrogen. from which it is extracted. See method for analysing tobacco additives.6 %). max. List B. max. nitrogen.bzw. max. It occurs in granular form in the organs of certain plants. 1 mg/kg. Part I of the Regulation on Food Additives (ZusatzstoffVerkehrsverordnung) 3. including dialdehyde starch produced from oxidised starch with an aldehyde content of at least 90 %8 3.5 %).2 Other modified starches 3. No more than 1. "Bestimmung der Dialdehydeinheiten in Oxi.2. Bundesgesundheitsblatt 8 (1965) 110.3.2.2. 1 mg/kg. 0. 4.1 Treated with propylene oxide to produce neutral starch ethers (specification of starch: propylene chlorohydrin. addition products of maleic and fumaric acid and/or of formaldehyde with colophony.3.4 %.4.2 Oxidatively degraded starch.3 Starch esters 3. Colophony. crosslinked with epichlorohydrine and treated with 3-chloro-2hydroxypropyl trimethyl ammonium chloride (specification of starch: epichlorohydrin. also treated with ammonium phosphate or orthophosphoric acid in the presence of urea 3. 1. max.1 Monostarch phosphate. as well as with peroxyacetic acid and/or hydrogen peroxide 3. Cellulose ether 6 7 8 The general and specific purity requirements after Annex 2.2.1 Bleached starch.2. 3. degree of substitution.4.5 Starch.0 %). max. Sizing agents: 1.2. also treated with hydrogen peroxide.4. Starch6 3. Production aids The following production aids may be used: I. max.2. potassium or ammonium peroxydisulfate.2 Treated with monochloroacetate to produce anionic starch ethers (specification of starch: sodium glycolate.3 Starch succinate 3. 1mg/kg. max. Native food starch is a carbohydrate polymer consisting almost entirely of α-D-glucose units.2. 0. 2. 1 mg/kg. potassium or ammonium peroxydisulfate.5 %). 0. Casein and glue of animal origin 3. List A.0 mg formaldehyde/ dm2 must be detectable in the extract of the finished product. max. Part II of the Regulation on Food Additives (Zusatzstoff-Verkehrsverordnung) apply. 3. treated with 3-chloro-2-hydroxypropyl trimethyl ammonium chloride (specification of starch: epichlorohydrin. nitrogen.3 Treated with 3-chloro-2-hydroxypropyl trimethyl ammonium chloride or glycidyl trimethyl ammonium chloride (specification of starch: epichlorohydrin. 3. max.6 Monostarch phosphate. enzymatically modified starch and acid-treated starch.2. 1 mg/kg. also treated with vinyl acetate (specification of starch: max.3. degree of substitution (DS). Starch ethers 3.2.4.
Alginates6. 18. 0. which can contain up to 65 % isoalkyl groups. Water-glass and alumina gel 9. acrylic acid (approx. max. 0. residual content in sodium glycolate max. 16 %) and styrene (approx. The transfer of 3-monochloro-1. 0. 1. 0.Federal Institute for Risk Assessment 5. in total max. based on weight of the dry paper.0 % 13. based on weight of the dry paper. 14. made from glycerol monostearate. water-soluble polyurethanes. 60 %). water-soluble polyurethane. toluylene diisocyanate and N-methyl diethanol amine (mean mol. Di-alkyl(C10-C22)diketenes.2propanediol into the water extract of the finished products must be as low as technically achievable. Sodium and ammonium salts of copolymers of isopropyl maleate half ester (approx. max. toluylene diisocyanate. provided it complies with amended Recommendation II11." 12 No ethyleneimine must be detectable in the resin (detection limit 0.01 mg/dm2 N-[3-(dimethylamino) propyl] methacrylic amide 2-(N. 10. In addition.5 % 7. wt.2 Galactomannane.0 %. max. max.2002.0 %. a limit of 12 µg/l must not be exceeded in any case.6 %. based on weight of the dry paper.1 Carboxymethylgalactomannane. 0. in total max. 0. Ammonium salt of a copolymer of styrene (approx. 59 %). 10 000). Condensation products of melamine. nitrogen max. dimethylol propionic acid and N-methyl diethanol amine (mean mol.N. treated with 3-chloro-2-hydroxypropyl-trimethylammonium chloride or glycidyl-trimethylammonium chloride (specification: epichlorohydrine max. water-soluble polyurethanes. Reemulsifiable polyvinyl chloride. 15. wt. 0. technically pure9 6. "Plasticizer-free polyvinyl chloride .5 %..3-Dichloro-2-propanol must not be detectable in water extract of the finished product (detection limit 2 µg/l).5 %. A mixture consisting of the ammonium salt of a copolymer of styrene and maleic acid anhydride (50 : 50) with a copolymer of acrylic acid n-butyl ester and acrylonitrile (70 : 30) in the ratio of 1 : 2. No more than 1. mannogalactanes6 7. 100 000). 23 %) and maleic acid (approx.1 mg/kg).N-trimethyl ammonium)ethylmethacrylat chloride 11. max. max. 19. 25 %). Di-sodium salt of a copolymer of styrene (approx. based on the fibres weight or Anionic. 10 Seite 4 von 16 . 0. For compliance with the requirement in respect to chloropropanols. based on the dry fibres weight. 50 %). 50 %) and maleic acid (approx. 4. max. 2. based on weight of the dry paper. Dispersions of wax and paraffin. 16. Ammonium salt of a copolymer of maleic acid anhydride. formaldehyde and ω-aminocaproic acid. Cationic. 12.5 %. based on weight of the dry paper. resins and plastics " 11 Recommendation II. microcrystalline waxes and mixtures of these with waxes. Galactomannane ethers 7. cross-linked with epichlorohydrin12. xanthane6. made from glycerol monostearate. 10 000).0 %) 8.1 mg/kg. " Hard paraffins. may also be used as a monomer: 2-(Dimethylamino)ethyl acrylate with a residual content of max. wt. made from glycerol monostearate. a transitional period has been granted until the 31. toluylene diisocyanate and N-methyl diethanol amine (mean mol. Part I10. 17 %).6 %. isopropyl maleate half ester and diisobutylene. 9 The Sodium glycolate content may not exceed 12 %.7 %. 1. provided the waxes and paraffins comply with amended Recommendation XXV. 0.15 %. acrylic acid (approx.03. 0. Plastics dispersions. Recommendation XXV. Sodium salt of carboxymethyl cellulose. max. provided they comply with amended Recommendation XIV. max. based on the dry fibres weight or Cationic. 1..0 mg formaldehyde/dm2 must be detectable in the extract of the finished product. 17.15 %.
modified with polyethyleneglycol and epichlorohydrin. 0. treated with monochloroacetic acid to produce anionic cereal flour ethers (specification: sodium glycolate. Polyethyleneimine. aluminium chloride hydroxide. max.03 % dibutyl tin diacetate. Gluconic acid 10.N'-methylene-bis(acrylamide) and itaconic acid. Sodium carbonate.00-6.5 % formaldehyde. Primary aromatic amines must not be detectable in extract of the finished product. max. based on the sizing agent. Copolymer of acrylamide and acrylic acid.25 %. based on the dry fibres weight. max. based on the sizing agent.13 As preservative for the aforementioned polyurethanes. 0. based on the dry fibres weight. 0.0 % 24. Copolymer of acrylamide.08) 3. Precipitating. Aluminium salts such as aluminium sulfate. max. 4. may be used.2 % 13 On the determination of primary aromatic amines in aqueous extracts see: Amtliche Sammlung von Untersuchungsverfahren nach § 64 LFGB. 00. max. melamine with formaldehyde. Extract of the finished products must contain no more than 1. 2-[(methacryloyloxy)ethyl]trimethyl ammonium chloride. 25.0 %. cross-linked with triethanol amine. 2. dicyandiamide. based on the dry fibres weight. 2.4 % 11. Anhydrides of natural fatty acids. 0. 0. max. aluminium formate and sodium aluminate. Sulfuric acid 3. N. 1 dm2 of sized paper must not contain more than 0. Polycondensate of dicyandiamide and diethylenetriamine.0 %. may be used. "Untersuchung von Lebensmitteln .2 %. 0. 26. Seite 5 von 16 . Copolymer of acrylamide.Bestimmung von primären aromatischen Aminen in wäßrigen Prüflebensmitteln". max. N. cross-linked with N. 1. No. in each case a maximum of 0.45 % 12. treated with glycidyl trimethyl ammonium chloride (specification: epichlorohydrin. II. 1 mg/kg). Condensation products of urea.0 mg formaldehyde per dm2 (compare B V 8) 8. 1. Extract of the finished products must contain no more than 1. Sodium salts of ethylenediamine tetraacetic acid and diethylenetriamine pentaacetic acid and N-(2-hydroxyethyl)ethylenediamine-triacetic acid 9.4 %. sodium phosphate 5. fixing and parchmentisation agents: 1. 2-[(methacryloyloxy)ethyl]trimethyl ammonium chloride. 1.0 %. Method L. max.0 %.0 %. Galactomannane phosphoric acid ester. based on the dry fibres weight As emulsifier for the sizing agents.3 µg dibutyl tin diacetate.Federal Institute for Risk Assessment In producing the aforementioned polyurethanes. 23. 22. Hydroxyethyl starch 28. max. treated with acids 2. 3-Alkenyl(C15-C21)-dihydrofuran-2. Cereal flour 1. degree of substitution. max. Tannin 6. itaconic acid and glyoxal. Addition product of fumaric acid with colophony. 21. 0. max. Vinylformamide-vinylamine copolymer. Ammonia 4.5-dione. 27. sodium hydrogen carbonate. max.0 mg/dm2. based on the dry fibres weight 29. 20. 0. Condensation products of aromatic sulfonic acids with formaldehyde. 1.N’-methylenebis(acrylamide). max.N'-methylene-bis(acrylamide). max. 1. max.02 % sodium-2-stearoyllactylate may be used. 0. Copolymer of maleic acid and dicyclopentadiene (ammonium salt). max.0 mg formaldehyde per dm2 (compare C I 2 and 3) 7. max.
adipic acid dimethyl ester. diethylenetriamine. diethylenetriamine. 0.2 % l) Polyamide-polyamine-dichloroethane resin. produced from epichlorohydrin. significant amounts of it. V.N-Trimethylammonium)propylacrylamide. Polyethyleneimine.N. produced from bis-(3-aminopropyl)-methylamine and 1. cationic polyalkylene amines13 (compare C. I. if under certain conditions of use. 0.1 %. diethylenetriamine.5 % g) Polyamide-epichlorohydrin resin. 4. diethylenetriamine and epichlorohydrin or a mixture of epichlorohydrin with ammonia12 d) Polyamide-polyamine-epichlorohydrin resin. glutaric acid dimethyl ester and diethylenetriamine12. l and B. max.f)14. 2. 0. These solvents must comply with the "Purity requirements for liquid paraffins" in the 155th Communication of Bundesgesundheitsblatt 25 (1982) 192. However. 0. adipic acid.: in total max. aminomethylpiperazine and 1.N-Trimethyl ammonium)ethylacrylate. produced from epichlorohydrin. vinylamine and acrylic acid. diethylenetriamine.2 % j) Polyamide-polyamine-epichlorohydrin resin. produced from polyepichlorohydrin.2 % m) Polyamine-dichloroethane resin. max. diethylenetriamine and a mixture of epichlorohydrin and dimethylamine12. 0. diethylenetriamine and/or ethylenediamine12 c) Polyamide-epichlorohydrin resin. The transfer of these solvents from the final product (in)to the foodstuff may not exceed 12 mg/kg foodstuff (preliminary limit). produced from epichlorohydrin and diaminopropylmethylamine12 b) Polyamide-epichlorohydrin resin. appropriate testing instructions will be published at a future date. max.2 % 14 Hydrocarbon solvents (paraffinic. Choline and its salts 14. pentaethylenehexamine. tetraethylenepentamine.5 % of the monomers listed under b) .Federal Institute for Risk Assessment 13. produced from dichloroethane and an amide of adipic acid. adipic acid and ethyleneimine12.0 % k) Polyamide-polyamine-dichloroethane resin. triethylenetetramine.2-dichloroethane.1 % monomeric acrylamide and 0. caprolactam and diethylenetriamine f) Polyamide-epichlorohydrin resin. Copolymer of vinylformamide. 0. chloride e) 2-(N. produced from adipic acid. may migrate out of the paper. chloride d) 2-(N. produced from epichlorohydrin. adipic acid. 2. 1 %. naphthenic. Homopolymers and copolymers of a) Acrylamide b) Acrylic acid c) 3-(N. max. 0. max.N. max. 0. Cross-linked. produced from epichlorohydrin.N-Dimethyl-N-benzylammonium)ethylacrylate.2-dichloroethane. 0.N-Trimethyl ammonium)ethylmethacrylate.5 %15 (compare B. based on the dry fibres weight III. Retention agents: 1.N. 10). 4) i. IV. produced from adipic acid. or its conversion products. 3. produced from adipic acid. Seite 6 von 16 . diethylenetriamine and 1.2 % i) Polyamide-epichlorohydrin resin.0 %: a) Polyamine-epichlorohydrin resin. and a mixture of ethylenediamine. adipic acid dimethyl ester and diethylenetriamine12 e) Polyamide-polyamine-dichloroethane resin. with a chain length from C10 to C16) can be used as formulating agents. diethylenetriamine and a mixture of epichlorohydrin and dimethylamine12. chloride f) 2-(N. chloride max.2-dichloroethane. max. max. 15 This production aid becomes firmly attached to the cellulose fibre. max.2 % h) Polyamide-epichlorohydrin resin. max. provided that the polymers contain no more than 0. produced from epichlorohydrin. caprolactam. produced from adipic acid. ethyleneimine and polyethyleneglycol12.e.
sodium and ammonium salts. Copolymer of acrylamid and 2-(N.15 % 12.N. Residual monomeric acrylamide. as well as its calcium. III. 0. 5.06 %. Silicone-containing paraffin dispersions. 0. high-molecular polyethylene oxide. based on weight of the dry paper. caprolactam. max.5 % (based on dispersion dry substance) 4. max. 18 Recommendation XV. produced from triethylenetetramine and adipic acid with a content of 15 % diethyleneglycol monomethyl ether (as diluting agent) or a mixture of 70 parts of this polyamide amine solution with 30 parts of sulfatised sperm oil. a mixture of ethylenediamine and N-(2-aminoethyl)-1. Copolymer of dimethylamine ethylenediamine and epichlorohydrin12. IV. 10). ethyleneimine. 0.N’-[bis-(3-aminopropyl)]-1. based on the dry fibres weight. produced from adipic acid.2 % 10. 0. chloride. max. adipic acid. 2. 0. diethylenetriamine and a mixture of epichlorohydrin and dimethylamine12. max. 0. 17 This production aid is washed out to the paper during manufacture. 3 % 9. max. Polyethyleneimine. Copolymer of acrylamide and diallyldimethyl ammonium chloride. 1. 0.2ethylenediamine. cationic polyamide amine. 0. "Silicones" Seite 7 von 16 2 . must not exceed 0. max. magnesium.05 %. chloride. Reaction product of polyacrylamide with formaldehyde and dimethylamine16. max.N. produced from adipic acid. max.02 %. N. produced from adipic acid. max.0 %17. 0. Vinylamine-diallyldimethylammoniumchlorid-copolymer. 2 and B. provided that the polymers contain no more than 0. max.1 % b) Mixture of Polyamide-epichlorohydrin resin. max. in each case no more than 0. phenol and formaldehyde as sodium salt. Lignosulfonic acid. Extract of the finished products must not contain more than 1. 0. Part I10. Polydimethyldiallyl ammonium chloride.5 % based on the dry fibres weight 13.015 % and a condensation product of xylene sulfonic acid. max.05 %.Federal Institute for Risk Assessment n) Polyamideamine-polyetheramine-epichlorohydrin resin. produced from diethylenetriamine. 7. 6.3-propylenediamine. in total. Homopolymers and copolymers of vinylformamide and vinylamine. Dewatering accelerators: 1. max.1 %.5 %15 (compare B. Alkyl-aryl sulfonates. max. max. made by Hofmann degradation of the amide groups of a acrylamid-diallyldimethylammoniumchloride copolymer.05 % of 2-(N. 0. dihydroxydiphenylsulfone and form aldehyde (sodium and ammonium salt).2 % 4. based on the reaction product of polyacrylamide with formaldehyde and dimethylamine. V. Copolymer of dimethylamine and epichlorohydrin12. max.25 % 8.002 mg/dm ). 1 %. max.0 % 16 Dimethylamine must not be detectable in the aqueous extract (detection limit: 0. polyethyleneglycol and epichlorohydrin12. provided that the silicones and paraffins comply with amended Recommendations XV18 and XXV.N-trimethyl ammonium)ethylacrylate. 0.1 % monomeric acrylamide and 0. 0. epichlorohydrin and polyethyleneglycol12.0 mg formaldehyde per dm2. max. 11.N-trimethyl ammonium)ethylacrylate. 0. 0. max. 1.015 % and a condensation product of β-naphtholsulfonic acid. max. 3.2 % o) Polyamidoamine-ethyleneimine resin. a) Mixture of Polyamide-epichlorohydrin resin. diethylenetriamine and a mixture of epichlorohydrin and dimethylamine12. linear.2 % (calculated as polyamide amine in dry the fibre). high-molecular polyethylene oxide. High-molecular. 0. linear.06 % The limits given above under a) and b) for individual components are based on dry fibres weight of the particular paper.
min. 2-Amino-2-methyl-1-propanol. 2. Max.2 terminal propylene oxide groups.12 ethylene oxide groups19 7. The restrictions of Regulation (EU) No 1907/2006 concerning Nonylphenol ethoxylate have to be obeyed. polyacrylic acid. max.0 %. 2 % alkyl and alkyaryloxethylates and their esters with sulfuric acid (as emulsifiers) may be added to 20 .1 500 daltons Polydispersity index (Mw/Mn) = 1. 11 000) Alkyl (C10-C20) sulfonates Alkyl-aryl sulfonates (compare B. 0.0 % 5. 3. 18. Sulfonated castor oil 8. The liquid paraffins must comply with the "Purity requirements for liquid paraffins" in the 155th Communication of Bundesgesundheitsblatt 25 (1982) 192.12 ethylene oxide groups 6. IV. 2 and B. 100 mm2 s-1. 0. Alkylphenol polyglycol ether with 6 . 2 %. Cellulase4 6. 1. as well as its calcium. Condensation products of aromatic sulfonic acids with formaldehyde.0 %. max.71 mg/dm2 The reaction product has to comply with the following specification: Number average molecular weight (Mn) ≥ 9 000 daltons +/. V. sodium monoalkyl-dialkylphenoxybenzene-disulfonate. Polyaspartic acid.5 % 19.01 %. bis 10. Triisobutylphosphate 3. Sodium. Alkyl(C13)polyglycol ether with 5 . no more than 0. also in emulsified form20 4.02 µg/dm2 paper). Defoamers: 1.2. based on the dry fibres weight.0 mg formaldehyde per dm2 (compare B. up to 1 % of each may be used.014 % 14. 7) 9. Seite 8 von 16 . max. Citric acid 15. Polyethyleneimine. Lignosulfonic acid. VI. The content of cyclic-condensed metaphosphates must not exceed 8. stabilised with 0. IV.1. 2-Phosphonobutane-1. 0. max. max. magnesium. 4.25 mg/dm² must be detectable in extract of the finished product. C. wt. and a total of max. 11. sodium and ammonium salts 10. III. 0. l) 12. but in total no more than 3. Dispersion and flotation agents: Polyvinylpyrrolidone (mol. 1. max. max. based on the formulation. Sodium lauryl sulfate Of the production aids listed under 1. Organopolysiloxanes with methyl and/or phenyl groups (silicone oil) according to Section I of Recommendation XV18. II. 2.3 2-ethylhexylglycidyl ether must not be detectable in the final product (limit of detection: < 0.5 % 13. determined according to DIN 51 562 at 20 ° min.1 500 daltons Weight average molecular weight (Mw) ≥ 10 000 daltons +/.25 % aqueous solutions of this antifoam agent.Federal Institute for Risk Assessment 5. Alkylsulfonamides (C10-C20) 19 20 1. Extract of the finished products must contain no more than 1. 2 % liquid paraffin.0 .42 % sodium tetraborate. 0. Fatty acid esters with polyethyleneglycol and polypropyleneglycol 6.4-tricarboxylic acid. 0. Fatty acid esters of mono and polyhydric aliphatic alcohols (C1-C22) 5. Alkyl polyglycol ether with 6 . based on the dry fibres weight 16. Kinematic viscosity of the silicone oils.2-Dihydroxy-C12-C14-alkyloxethylates. Reaction product of 2-ethylhexylglycidyl ether with polyethylene glycol. Water-glass. max. 17.5 %15 (compare B. 2) Alkali salts of mainly linear-condensed polyphosphates. Linear primary alkan-1-oles/alken-1-oles with 8-26 carbon-units(fatty alcohols).7 ethylene oxide groups and 1 .
10 %) and 2-phenyl-sulfonylpropionitrile (approx. 1. Fructose polysaccharide (levan)-hydrolase. Methylene-bis-thiocyanate. polyoxyethylene sorbitan monooleate with 20 ethylene oxide end groups.003 %. This substance must not be detectable in extract of the finished products.1 % 13. Tetramethyl thiuram disulfide. sodium peroxide. Extract of the finished products must contain no more than 1.5 mg dry substance per kg paper. 80 %).0004 % based on dry fibres weight VII.4-Bis(bromoacetoxy)butene. to 7. in total. based on dry fibres weight. Gelatine Of each of the production aids listed under 1.Federal Institute for Risk Assessment 7. This substance must not be detectable in extract of the finished product. b) Antimicrobial agents 1. 2.5-Dimethyl-tetrahydro-1. Neither substance.N'-dimethylthiourea and dithiocarbamates) must be detectable in extract of the finished product. 0. 0. max. 3. 2-Bromo-2-nitropropane-1. max. This substance must not be detectable in extract of the finished products.1 % (for purity requirements see 155th Communication). 0. 5. This substance must not be detectable in extract of the finished products. No more than one unit of levanase activity must be detectable. sodium hydrogen sulfite. no more than 0. Edible oil 14. This substance must not be detectable in extract of the finished product. 12.0 mg formaldehyde per dm2. based on dry fibres weight. as well as peroxyacetic acid. phenyl-(1. 2-(pchlorobenzoyl)-ethylamine must not be detectable in methanol extract. max.N’-Ethylene-bis-stearamide 11.1 % may be used. Neither substance must not be detectable in extract of the finished products. Slimicides: a) Enzymatic agents 1. 11. 13.0045 %. each max. 12. 0. 4. esterified with coconut fatty acid or oleic acid. based on the dry fibres weight 15. 10. 2.01 % 12. 9.075 % 10. max.01 mg bromine per dm2.3. Di-sodium-cyano-dithioimidocarbonate and/or potassium-N-methyl-dithiocarbamate. Bromohydroxyacetophenone. 8. N. based on dry fibres weight.3-diol. nor their conversion products (mainly methylthiourea. 0. 0.2-dichloro-2-cyanvinyl)sulfone (approx. of each max. 7. Mixture of Phenyl-(2-chloro-2-cyan-vinyl)sulfone (approx.1 %. max. Extract of the finished products must contain no more than 0. Sorbitan monooleate. N. 0.001%. 0. Liquid paraffins. polyoxyethylene sorbitan monostearate. 2-Oxo-2(4-hydroxy-phenyl)-acethydroxamic acid chloride. Sorbitan monostearate. 6. 8. N-(2-p-chlorobenzoylethyl)-hexaminium chloride. Potassium-N-hydroxymethyl-N'-methyl-dithiocarbamate and Sodium-2-Mercaptobenzothiazole. max. max.2-Dibromo-3-nitrilopropionamide.001 %. 9. The breakdown product. Sodium chlorite. Poly-(ω-hydroxy-(polyoxyethylene-polyoxypropylene-propyl)methylsiloxane)-copolydimethylsiloxane reaction product with hexamethylenediisocyanate. 0. Seite 9 von 16 . This substance must not be detectable in the extract of the finished products.5-thiadiazine-2-thione. 10 %). 0. 3. based on dry fibres weight. Bis(2-ethylhexyl) sodium sulfosuccinate. This substance must not be detectable in extract of the finished products. hydrogen peroxide. max. Copolymer of glycerol with ethylene oxide and propylene oxide.
14.4-dicyanobutane. 0. 1 part)24. 27. 0.3. based on dry fibres weight. the conversion products. 26.04 %. Dodecylguanidine hydrochloride.5 : 1. respectively. In the extract of the finished products not more than 0. max. based on the dry fibres weight 25. 18. dimethylolacetylenediurea. based on the dry fibres weight.4.045 %.1 : 1 to 3. max. Contributions from other applications (e.04 %.04 %.3-Dimethylol-5. 1-Bromo-3-chloro-5. corresponding to 0. Mixture of 1. benzaldehyde and bromonitromethane are not detectable in the finished product (detection limits for benzaldehyde and bromonitromethane = 0.00045 %. may be used. max.1 mg formaldehyde/dm². 29. The extract of the finished products must contain no more than 0.15 ppm of this substance. This substance must not be detectable in the extract of the finished product (detection limit: 0. max. 21.04 and 2. 23.02 %. No hypochlorite and hypobromite must be detectable in the extract of the finished product. 2. based on dry fibres weight. max. 1.3H)-dione as formaldehyde donator system with an average ratio of formaldehyde: acetylene diurea of 3. 17. based on dry fibres weight. must be detectable22. 24 The restrictions refer to the application of these substances as slimicides and preservatives. max. max.05 % (based on the dry fibres weight) 5. monomethylolacetylenediurea and formaldehyde.028 %. Mixture of 1. 31. max. based on dry fibres weight.3-dichloro-5. 30.0 mg of this substance per kg dry fibres. max. based on the dry fibres weight.6-tetrakis-(hydroxymethyl)-imidazo(4.04 %.005 %.07 %. 0.5-dimethylhydantoin. 12 %. max. 0. based on dry fibres weight. 20. Tetrahydro-1. 3 parts) and 2-methyl-4isothiazolin-3-one (approx. β-Bromo-β-nitrostyrene. Ammonium bromide/sodium hypochlorite adduct. max. 2-(Thiocyanatomethylthio)-benzothiazole. In the extracts of the final products the following levels must not be exceeded in total: Seite 10 von 16 . This substance must not be detectable in extract of the finished product (detection limit of method of analysis: 0.3-dichloro-5. max. 0. 24. 21 Experiments have shown that following cold extraction with n-heptane.5-Dichloro-(3 H)-1. No more than 0. No hypochlorite or hypobromite must be detectable in the extract of the finished product. The sodium hypobromite content of the solution is max.004 %. during the manufacture of paper.5-dimethylhydantoin and 1-bromo-3-chloro-5. No more than 2 mg glutaraldehyde must be detectable in 1 kg of finished product. phenylsulfonyl acetonitrile.06 mg/kg paper). Glutaraldehyde. Didecyl dimethyl ammonium chloride. 0. based on the dry fibres weigth. Mixture of 5-chloro-2-methyl-4-isothiazolin-3-one (approx. Chlorine dioxide. based on the dry fibres weight. 0. 0.5 µg/dm2 of the mentioned isothiazolinones in total must be detectable in the extract of the finished product.5-Dimethyl hydantoin. based on the dry fibres weight. 19. 15. based on the dry fibres weight23.5-dimethylhydantoine.5(1H. based on dry fibres weight21. must not be detectable in the extract of the finished product. in dispersions according to Recomendation XIV or in printing inks) must comply with the restrictions laid down for these areas. 22. 0. Tetrakis(hydroxymethyl)phosponium sulfate. 0.02 % (active substance determined as chlorine). 1. 0. 28.05 %.3-dichloro-5-ethyl-5-methylhydantoin and 1.5 %. 10 % and the sodium sulfamate content is max. 0.0 mg/kg. 23 For the stabilization of sodium hypochlorite 0. max.2-Dibromo-2. based on the dry fibres weight.Federal Institute for Risk Assessment These substances and the degradation product.3-dichloro-5-ethyl-5-methylhydantoin. Alkali-stabilised solution of hypobromite. Extract of finished products must not contain more than 2.6 µg/dm2). 0. Sodium hypochlorite. max.5-d)imidazole-2.3 mg/dm². 4.5-dimethylhydantoin in the ratio of 1 : 3 : 6. 1. also in the form of the sodium salt. respectively).5dimethylhydantoin in the ratio of 1 : 5. 16.2-dithiol-3-one. 22 brief description: Tetramethylolacetylenediurea (tetramethylolglycoluril) in chemical equilibrium with trimethylolacetylenediurea. g.
0 mg formaldehyde/dm2. Mixture of 5-chloro-2-methyl-4-isothiazolin-3-one (approx. 0.5 µg/dm2 of the mentioned isothiazolinones in total must be detectable in the extract of the finished product. No more than 5 µg/dm2 of this substance must be detectable in the extract of the finished product.0 mg formaldehyde per dm2 7. max. Special Paper refining agents The following paper refining agents may be used: 1. max. 0. 9. 0.5-dioxahexane. No more than 10 µg/dm2 of this substance must be detectable in the extract of the finished product. Mixture of 5-chloro-2-methyl-4-isothiazolin-3-one (approx. 12. and paper refining agents (Section C) from deterioration and decay. 6. 1. 1. Extract of finished product must contain no more than 1. The preservatives listed above must only be used in the amounts necessary to protect the raw materials (Section A). No more than 5 µg/dm2 of this substance must be detectable in the extract of the finished product. 13. C. No more than 1. N. 1 2 part): 25 µg/dm 2 1. max. No more than 1 µg/dm2 of this substance must be detectable in the extract of the finished product. 11. 2-Octyl-2H-isothiazol-3-one. 3 parts) and 2-methyl-4-isothiazolin-3-one (approx. VIII. max. Sodium tetraborate. o-Phenyl phenol and its sodium and potassium salts. 2-methyl-4-isothiazolin-3-one24.2-Benzisothiazolin-3-one24. 3. 0. 1 part)24. provided no more than 15 mg p-hydroxybenzoic acid ester are contained in 1 kg of packaging material. processing aids (Section B).2-Benzisothiazolin-3-one24.6-dihydroxy-2.005 %. 35. Seite 11 von 16 . 4.N'-dihydroxymethylene urea.0125 %. Preservatives: Sorbic acid p-Hydroxybenzoic acid ethyl and/or propyl ester25 Formic acid Benzoic acid Adduct of 70 % benzyl alcohol and 30 % formaldehyde Extract of the finished products must contain no more than 1. Formaldehyde. No more than 1 µg/dm2 of this substance must be detectable in the extract of the finished product. No more than 0. 1. 2-methyl-4-isothiazolin-3-one24. 34.029 %. No more than 10 µg/dm2 of this substance must be detectable in the extract of the finished product. based on the dry fibres weight.0 mg/dm2 of formaldehyde must be detectable in the extract of the finished product. 36. this substance must not be detectable in extract of the finished product. max.5-Dichloro-2-n-octyl-2H-isothiazol-3-one.01 % 10. 4. as well as their sodium salts) in hydrogen peroxide (35 %) may be used. 0. No more than 1.Federal Institute for Risk Assessment 32.15 % aqueous solution of p-hydroxybenzoic acid ester (methyl. 3 parts) and 2-methyl-4isothiazolin-3-one (approx.022 %. 2. 37. Methylene-bis(thiocyanate). 33.0 mg/dm2 of formaldehyde must be detectable in the extract of the finished product. 8. 5.2-Benzisothiazolin-3-one: 80 µg/dm 2 2-methyl-4-isothiazolin-3-one: 80 µg/dm 25 A 0. Sodium hydroxide. ethyl and n-propyl ester of p-hydroxybenzoic acid. based on the weight of the dry fibres.
acetic acid and epichlorohydrin12. Copolymer of vinylformamide and acrylic acid. 2-aminoethanol and epichlorohydrin12. Polyhexamethylene-1. Vinylformamide-vinylamine copolymer.6-diisocyanate. adipic acid. produced from diethylenetriamine. 4.0 mg formaldehyde per dm2.5 mg glyoxal per dm2.Federal Institute for Risk Assessment I. 8. produced from epichlorohydrin. adipic acid. 2 %. b) c) Polyamide-epichlorohydrin resin.5 mg glyoxal per dm². III. Copolymer of hexamethylenediamine and epichlorohydrine.0 % i) Polyamide-epichlorohydrin resin. 1. 4. max.1 %. succinic acid and epichlorohydrin j) Polyamide-epichlorohydrin resin. d) e) Polyamide-polyamine-epichlorohydrin resin. Urea-formaldehyde resins. modified with polyethyleneglycol monomethyl ether. based on the dry fibres weight. Extract of the finished product must not contain more than 1. adipic acid and epichlorohydrin. 2. 15 (compare B. 0.0 %: a) Polyamine-epichlorohydrin resin. caprolactam. adipic acid and epichlorohydrin. 6. adipic acid. max. 0. adipic acid. 3. Wet-strength agents: 1. 12. 1. III. 5. urea and oxalic acid. Humectants: 1. 3.0 %. Glyoxal. adipic acid. max. Urea Seite 12 von 16 . produced from epichlorohydrin.6-diisocyanate.N-dimethylaminoethanol.0 % h) Polyamide-epichlorohydrin resin. III.). a) b) Polyamide-epichlorohydrin resin. an adipic acid amide and diaminopropylmethylamine f) Polyamide-epichlorohydrin resin.2 %. epichlorohydrin. produced from adipic acid. III. III. diallyldimethyl ammonium chloride and glyoxal. Extract of the finished product must not contain more than 1. in total max. 1 %. Extract of the finished product must not contain more than 1. 1. max. Copolymer of diethylenetriamine. based on the dry fibres weight This copolymer must only be used in the manufacture of kitchen rolls.2 % g) Polyamide-epichlorohydrin resin. diethylenetriamine and epichlorohydrin or a mixture of epichlorohydrin with ammonia (compare B. 3. 1. Copolymer of diethylenetriamine. Terpolymer of acrylamide. max. Cross-linked. 1. max. 2 % 10. ethyleneimine and polyethyleneglycol. max.0 mg formaldehyde per dm2. c) d) Polyamide-polyamine-epichlorohydrin resin.2 % monoethyleneglycol 3. produced from diethylenetriamine. Polyhexamethylene-1. max. produced from epichlorohydrin. 3. triethylenetetramine. Melamine-formaldehyde resins. 3. 2 %. 7. modified with polyethyleneglycol monomethyl ether and N. cationic polyalkylene amines12. adipic acid dimethyl ester and diethylenetriamine (compare B. produced from bis-(3-aminopropyl)methylamine. produced from epichlorohydrin and diaminopropyl methylamine (compare B. produced from bis-(3-aminopropyl)methylamine. 9. Glycerol 2.2 %. Polyethyleneglycols which contain no more than 0. based on the dry fibres weight II. glutaric acid. max. diethylenetriamine and/or ethylenediamine (compare B. max. diethylenetriamine. based on the dry fibres weight 11. produced from epichlorohydrin. Extract of the finished product must not contain more than 1. max. 3.
1 Carboxymethylgalactomannane. Testing is conducted according to DIN EN 64626.4 mg/dm2. Colorants and optical brighteners: 1. calcium. Sodium nitrate. but only together with urea. Saccharose. Casein (compare B I No.6 %.48 %. Methyl cellulose6 13. 4. Aluminium. insoluble mineral compounds that are harmless to health (compare A III).004 mg chromium(III)/dm2. 7. 0. 6. Testing is conducted according to DIN EN 64826. max. Optical brighteners must not migrate to the foodstuff. non-fatty foodstuffs. glucose syrup 6. Paraffins. III. Sodium salt of carboxymethyl cellulose. No. based on the dry fibres weight. IV.0 % of the substances listed above may be used. residual content in sodium glycolate max. whereby grade 5 on the so-called grey scale must be reached. Seite 13 von 16 . In total max 7. max. Sodium chloride. while chromium (VI) must not be detectable. melts. potassium and ammonium salts of straight-chain aliphatic carboxylic acids of chain length C12-C20. There must be no migration of colorants to the foodstuff. treated with 3-chloro-2-hydroxypropyl-trimethylammonium chloride or glycidyl-trimethylammonium chloride (specification: epichlorohydrine max. Surface refining and coating agents27: 1. Galactomannane ethers 10.1 mg/kg. Mannogalactanes6 10.Federal Institute for Risk Assessment 4. whereby a value of 5 on the evaluation scale must be reached. 5. Sorbitol 5. 2) and vegetable proteins 8. No. 2. also the following substances with their respective restrictions are covered by this Recommendation: Copolymer of perfluoroalkylethyl acrylate. based on chromium. The product list under B I No. Cold water extract of the finished product must contain no more than 0. laquers. calcium chloride 7. 15. max.N-dimethylamino-ethyl methacrylate. 4. For paper and board.0 %) 11. The second sentence of No. 3 (starch) 9. 2) of the Regulation on Food Additives (Zusatzstoffverkehrsverordnung). dispersions). 0. 2. Silicone oils with special additives after Section I. Polyvinyl alcohol (viscosity of 4 % aqueous solution at 20 ° min. microcrystalline waxes. Natural and synthetically produced. Copolymer of perfluoralkyl(C4-C18)-ethylacrylate. provided they comply with the prevailing requirements of food law. vinylacetate and N. sodium. nitrogen max.2 Galactomannane. Chromium(III)chloride complexes with saturated straight-chain fatty acids of chain length C14 and longer. glucose. C. low-molecular polyolefins and polyterpenes. provided they comply with amended Recommendation XXV10. Alginates6 26 27 Testing is not necessary for paper and paperboard intended for contact with dry. Plastics (films. max. 0. Sulfonated stilbene derivates. 3 of Recommendation XV and/or silicone resins or silicone elastomers (silicone rubber) in compliance with Sections II and III of Recommendation XV18. 0.5 % 10.3 %. solutions. Hydroxyethyl cellulose6 14. 5 cP). 1 above applies here likewise. 0. technically pure9 12.3epoxypropylmethacrylate with a fluorine content of 54 %. 2-(diethylamino)ethyl methacrylate and 2. 3. These must comply with the general purity requirements (Annex l. witch are manufacturet befor 30 June 2011.
6. polyethylene glycol monoacrylate and 3. 2-dimethylaminoethyl methacrylate and 3. de-hydroiodinated. polymer with 3-N-methylaminopropylamine. max. Phosphoric acid ester of ethoxylated perfluoropolyetherdiol.6 %.4. Basic potassium zirconium carbonate.6 %. max.5.4. 35. Reaction product of hexamethylene-1.3. max. Copolymer of acrylic acid.8.0 mg/dm2 (based on zirconium dioxide.5.5.1.06 %.5.6. based on the dry fibres weight 30.4. 1.3.6.4.8.6.4.5.7. based on the dry fibres weight.5 %.tridecafluoro-6-iodohexane.5. 2H-2H-perfluoroalkyl)orthophosphate. converted with 3. methacrylic acid and polyethylene glycol methylethermonomethacrylate.2. 0. sodium salt with a fluorine content of 45.7. based on the dry fibres weight 23. 20. 0. Copolymer with methacrylic acid.8. based on the dry fibres weight. based on the dry fibres weight.1 %. Copolymer of methacrylic acid. 27. 1. 4 mg/dm2 36. max.25 mg/dm2. 5 mPa·s. reaction products with 1.6.8-tridecafluorooctyl acrylate.6.ω-perfluoro-(C8C14)alkyl-acrylate. 34.8 %. sodium salt.5 %.3.8-tridecafluorooctyl methacrylate. max. max.8 %. max. Ammonium zirconium carbonate. C16-C22 fatty acids and triglycerides there of. max. 22. 0.6. Paper and paperboard treated with this coating agent must not come into contact with foodstuffs that contain alcohol. 32.7.4.5.3.4.and C17-unsaturated alkyl)-1-[2-(C18. 0. 1.5. isophthalic acid and trimellitic acid anhydride. Copolymer with methacrylic acid. 2.8. acetate. 5 mg/dm².1 g/dm² 25.1.1 %.2 %.7.6. max.N-dimethyl dipropylene triamine and poly(hexamethylene diisocyanate). ammonium salt.3. 2-hydroxyethylmethacrylate. trimethylolpropane.8-tridecafluoro-1-octanol with a fluorine content of 48 %. 0. based on the dry fibres weight. acetate with a fluorine content of 45. Copolymer of acrylic acid-2-methyl-2-(dimethylamino)ethylester and γ. N-oxide. 1. manufactured from polyethylene terephthalate and one or more of the following substances or substance classes: Ethylene glycol.16 %.8. 2-diethylaminoethylmethacrylate. based on the dry fibres weight.7. Poly(hexafluoropropylene oxide). Xanthane6 17.4 %. 29.4. 2-(C17. Copolymer of vinyl alcohol and isopropenyl alcohol. Copolymer of acrylic acid-2-methyl-2-(dimethylamino)ethylester and γ.ω-perfluoro-(C8C14)alkyl-acrylate. 24.5.7.8.5.4. Copolymer of 3.8-tridecafluorooctyl methacrylate. max. 28. N-oxide.6. max.6. acrylic acid and 3. 2-Propen-1-ol.6. 2H-2H-perfluoroalkylortho-phosphate and diethanol ammonium-bis-(1H-1H. 3. Mixture of bis-(diethanol ammonium)-mono-1H-1H.8.7. max.8-tridecafluorooctyl methacrylate.1 %. with a fluorine content of 59. reaction products with epichlorohydrin and triethylenetetramine with a fluorine content of 54 %.3.5. Imidazolium compounds.unsaturated amido)ethyl]-4.4. pentaerythritol.7.and C18. Seite 14 von 16 .4. 33. N.4 %. max.8. The correspondingly treated papers may not come into contact with aqueous and alcoholic foodstuff.8.3. acetate and/or malate.5 %. max. 0.8 mg/dm2. 26.4.8-tridecafluorooctyl acrylate. polyethylene glycol monoacrylate and polyethylene glycol diacrylate with a fluorine content of 35.7. ZrO2) 18. 0.8.5 %.4.6 mg/dm2 31. max.7. 19. C.8. 2-hydroxyethyl acrylate.7. methylsulfates. Di(hydrogenated tallow fatty acids-2-hydroxyethyl ester)dimethyl ammonium chloride. 0. Perfluoropolyetherdicarbonic acid. max.6. based on the dry fibres weight. based on the dry fibres weight.4.5.6. 0.6. max. Viscosity of 4 % aqueous solution at 20 ° min.8. max.3.2.5-dihydro-1-methyl-.7. 21. 5 mg/dm². 2. Modified polyethylene terephthalates.2'-ethylendioxydiethyldimethacrylate. 0.5.5. 2hydroxyethylmethacrylate and 3.6-diisocyanate (homopolymer). expressed as ZrO2. Copolymer with 2-diethylaminoethylmethacrylate.Federal Institute for Risk Assessment 16. based on the dry fibres weight. max. acetate with a fluorine content of 44.
Coating system consisting of (outside to inside): PVOH with unmodified Na+-Bentonite (layer thickness min. max. with a fluorine content of 45 %. 38.8tridecafluorooctyl methacrylate.8. Copolymer of 2-dimethylaminoethyl methacrylate and 3. max. 13 µm) and a metallised PE layer (layer thickness min. 14.7. 10 % based on the PVOH.6.4.3.5. Bentonite may be used. 4 mg/dm2 Seite 15 von 16 .7. acetate. LDPE (layer thickness min.9 µm). 1 µm).8.5.4.Federal Institute for Risk Assessment 37.6. N-oxide.
breakfast cereals. DIN EN 643) and paper and paperboard from sorting plants for general or mixed component waste. 0.6 mg/kg Max. particular care has to be taken with the analytics of products with respect to the possible migration of substances of health-concern into foodstuffs. breadcrumbs. 0. Moreover. known substances which may be introduced by paper recycling and require specific inspections are listed below. the detection limit for paper yet has to be defined) ND (DL 0.Federal Institute for Risk Assessment Annex to recommendation XXXVI Preconditions for the use of recycled fibres as raw materials for the production of paper Generally products made from recycled fibres have to comply with all other requirements of recom-mendation XXXVI. sugar and salt). Substance Primary aromatic amines* 4.3 mg/kg. Exempt are however sort 5.4'-Bis(dimethylamino)benzophenone* Phthalates Diethylhexyl phthalate Di-n-butyl phthalate Diisobutyl phthalate Content in finished paper Migration into foodstuff or simulant ND (in the extract of the finished material. flour. Max. depending on the use of the papers and boards manufactured from recycled fibers.01 (Mixed recovered paper and board. 0. Content and migration of these substances into foodstuffs respectively have to comply with the specified limits. Substances. has to be considered by a careful selection of the grade of recycled paper28 and the use of suitable cleaning methods. which can be in the recovered paper used as raw material have to comply with additional requirements. migration of volatile and hydrophobic substances via the gas phase has to be considered particularly. According to the current state of knowledge.5 mg/kg Max. semolina. non-fatty foodstuffs having a large surface area (e. with regards to the compliance with the requirements laid down in article 3 of regulation 1935/2004/EC. 0. Regarding conformity with the rules of the Good Manufacturing Practice the possible presence of these substances.01 mg/kg) Benzophenone Bisphenol A* Diisopropylnaphthalene * Max. Seite 16 von 16 28 . 1. rice. For dry.3 mg/kg Max. compare European list of standard grades of recovered paper and board.3 mg/kg The sum of Di-n-butyl phthalate und Diisobutyl phthalate must not exceed 0. such as ingredients of printing inks or adhesives.6 mg/kg As low as technically feasible Verification of the specifications is only required if the finished products are intended for use with moist and fatty foodstuffs.g. This could be compensated by the use of an appropriate additional packaging.
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