HIGH-TEMPERATURE MIGRATION OF ANTIOXIDANTS FROM POLYOLEFINS

被引：47

作者：

GOYDAN, R

SCHWOPE, AD

REID, RC

CRAMER, G

机构：

[1] Arthur D. Little, Inc., Cambridge, MA 02140, Acorn Park

[2] Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge

[3] U.S. Food and Drug Administration, Washington

来源：

FOOD ADDITIVES AND CONTAMINANTS | 1990年 / 7卷 / 03期

关键词：

Antioxidant; Diffusion coefficient; Food; Migration; Polyolefin;

D O I：

10.1080/02652039009373897

中图分类号：

O69 [应用化学];

学科分类号：

081704 ;

摘要：

Migration rates of radiolabelled anitoxidants, Irganox-1010 (1-1010) and Irganox-1076 (1-1076), were measured from low- and high-density polyethylenes (LDPE, HDPE) and polypropylene (PP) at temperatures up to 135 °C. Water, 8 and 95 per cent aqueous ethanol and corn oil were employed as food simulating liquids (FSL). The experiments were conducted in a high-pressure cell in a manner that allowed contact between the polyolefin plaque and the FSL only during the test period and not while being heated. The migrations of the antioxidants varied with the square root of time, and the Fickian diffusion coefficients could be correlated with temperature in an Arrhenius fashion. Under comparable test conditions, antioxidant migrations were largest from PP for aqueous simulants, but for non-aqueous simulants the highest losses were from LDPE. In both instances lowest losses were from HDPE. In most instances there was little difference between the migration behaviour of 1-1010 and 1-1076. A few tests were conducted to measure the antioxidant migrations to foods. The losses were usually larger than those to water but below those to corn oil. © 1990 Taylor & Francis Ltd.

引用

页码：323 / 337

页数：15

共 14 条

[1]

Arthur D., High Temperature Migration Testing of Indirect Food Additives

[2]

Bieber W.-D., Figge K., Koch J., Interaction between plastics packaging and foodstuffs with different fat content and fat release properties, Food Additives and Contaminants, 2, pp. 113-124, (1985)

[3]

Recommendations for Chemistry Data for Indirect Food Additive Petitions, (1988)

[4]

Chang S.S., Senich G., Smith A.L.E., Migration of Low Molecular Weight Additives in Polyolefins and Copolymers, (1982)

[5]

Crank J., The Mathematics of Diffusion, Clarendon Press, (1975)

[6]

Figge K., Klahn J., Use of mathematical setups for calculations of the packaging components migrating into packed goods, Third International Symposium on Migration, pp. 81-96, (1980)

[7]

Figge K., Klahn J., Method for calculating the migration of components from polyolefins into aqueous or fatty contact media, Angewandte Makromolekulare Chemie, 107, pp. 117-141, (1982)

[8]

Koch K., Figge K., Moisan J.Y., Determination of fat release from foodstuffs. Part II. Application of the method to further foodstuffs, Fette Seifen Anstrichmittel, 80, pp. 158-161, (1978)

[9]

Moisan J.Y., Diffusion des additifs du polyethylene. I. Influence de la nature du diffusant. II. Influence de la structure du polyethylene. III. Influence de l'orientation, European Polymer Journal, 16, pp. 989-996, (1980)

[10]

Moisan J.Y., Diffusion des additifs du polyethylene. IV. Etude des materiaux-models, European Polymer Journal, 17, pp. 857-864, (1981)

← 1 2 →