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Packaging inks

P.Y.14 is more resistant to solvents than P.Y.12. In contrast to P.Y.12, it is resistant to paraffin, which makes it a useful product for packaging inks. This is one of the reasons why P.Y.14 is used so much more widely throughout the USA, where it is produced in considerably larger volumes than P.Y.13. Where P.Y.12 is not fast enough to meet the requirements, P.Y.14 is usually the second choice in the USA while most other countries replace P.Y.12 by P.Y.13. [Pg.249]

P.Y.114 is primarily supplied to the printing ink industry, where it is used especially for packaging inks. The pigment is utilized to produce prints at reasonable cost, especially where exceptional fastness, as provided by P.Y.83, is a minor consideration. Prints made from P.Y.114 are not entirely resistant to a number of organic solvents, including the standard DIN 16 524 solvent mixture, paraffin, and butter but P.Y.114 prints are soap, alkali, and acid resistant. The fact that the pigment does not withstand a temperature of 140°C and is not stable to sterilization excludes P.Y.114 from use in metal deco printing. [Pg.255]

P.R.256 is also recommended for paste, solvent and water based packaging inks, as well as for wall coverings. It exhibits limited migration- and heat resistance and is therefore not recommended for tin printing. [Pg.310]

P.B1.25 is very fast in application it is fast to fats, oils, soap, and paraffin, which makes it a suitable candidate for packaging inks. Its lightfastness, however, is not excellent. In natural rubber, P.B1.25 tolerates curing very well, and it bleeds neither into the rubber nor into the fabric backing (Sec. 1.8.3.6). In rubber, the pigment is fast to cold and hot water, to soap, soda, and alkali solutions, and to acetic acid. [Pg.313]

P.O.72 is also recommended for paste- and liquid packaging inks as well as for decorative inks. It exhibits a clean yellowish orange shade, excellent fastness properties and very high heat resistance. [Pg.362]

The printing inks industry utilizes P.Y.108 only in special-purpose media, including packaging inks, metal decorating inks, posters, and similar applications. The prints are comparatively dull, but very lightfast. They may safely be sterilized. [Pg.513]

Aurela, B., and Soderhjelm, L. (2007). Food packaging inks and varnishes and chemical migration into food. Ch. 13. In "Chemical Migration and Food Contact Materials" (K. A. Barnes, C. R. Sinclair, and D. H. Watson, eds.), pp. 302-319. Woodhead, Cambridge, England. [Pg.57]

Flint-Unirep Packaging Inks FLINT GROUP... [Pg.544]

Food packaging inks and varnishes and chemical migration into food... [Pg.302]

The resolution on packaging inks applies to layers of print situated at the non-food contact surface of any material intended for food contact. Inks in direct contact are excluded from the resolution. Neither does the resolution apply when there is evidence that a substrate stops the migration of any component, and set-off or transfer via the gas phase can be excluded. Consequently it does not apply to glass bottles, aluminium tins and corresponding materials. Its main objective is to regulate prints on fibrous or plastic materials. [Pg.306]

As regards responsibility, the resolution on packaging inks, in accordance with the above-mentioned framework regulation, states that the ink supplier... [Pg.306]

The CoE resolution on packaging inks is accompanied by a couple of technical documents (TDs). TD 1 provides the requirements for selecting packaging ink substances. It comprises a scheme, an inventory list of substances being used by the industry and an exclusion list. Substances that are evaluated by an international body are noted, and specific migration limits are given, if available. The purpose of TD 1 is to ensure that no substances that are harmful to human health, are transferred into the packed foodstuff. [Pg.307]

There are no specific international standards for packaging inks dealing with the determination of ink components or their migration. Some guidance may be found in the standards dealing with substances in paper and board and in plastics, referred to in section 13.7.5. [Pg.317]

Council of Europe Resolution ResAP(2005)2 on packaging inks applied to the non-food contact surface of food packaging materials and articles intended to come into contact with foodstuffs, available at www.coe.int. [Pg.317]

Technical document no. 2, Part 1. CEPE Good Manufacturing Practices for the production of packaging inks formulated for use on the non-food contact surfaces of food packaging and articles intended to come into contact with food. 1999, so far available at www.cepe.org to be published on the Internet. [Pg.317]


See other pages where Packaging inks is mentioned: [Pg.514]    [Pg.11]    [Pg.223]    [Pg.250]    [Pg.251]    [Pg.309]    [Pg.327]    [Pg.327]    [Pg.374]    [Pg.579]    [Pg.45]    [Pg.273]    [Pg.273]    [Pg.491]    [Pg.303]    [Pg.306]    [Pg.307]    [Pg.307]    [Pg.308]    [Pg.308]    [Pg.311]    [Pg.316]   
See also in sourсe #XX -- [ Pg.236 ]




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Problems related to packaging inks

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