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O. Vitrac et C. Joly
70 | 71
Fedors R. F. (1974). A method for estimating both the solubility parameters and molar volumes of liquids.
Polymer Engineering and Science. 14(2), 147154.
Flory P. J. (1941). Thermodynamics of high polymer solutions. Journal Chemical Physics. 9, 660661.
Flory P. J. (1942). Thermodynamics of high polymer solutions. Journal of Chemical Physics. 10, 5161.
Flory P. J. (1953). Principles of Polymer Chemistry. Cornell University Press, Ithaca, NY.
Groupe GFP (2005). Publications de la Commission Enseignement du Groupe Français d'Etude et d'Applications
des Polymères :
Hansen, C.M., 1967, The three dimensional solubility parameter ­ Key to paint component affinities. I. Solvents,
Plasticizers, Polymers, and Resins, J. Paint Technology, 39, 104117.
Heckman J. (2005). Food Packaging Regulation in the United States and the European Union. Regulatory
Toxicology and Pharmacology
, 42(1), 96122.
Helmroth E., Rijk R., Dekker M. et Jongen W. (2002). Predictive modeling of migration from packaging materials
into food products for regulatory purposes. Trends in Food Science & Technology, 13, 102­109.
Huggins M. L. (1942a). Derivation of Molecular Relaxation Parameters of an Isomeric Relaxation. Journal of
Chemical Physics, 46, 151153.
Huggins M. L. (1942b). Theory of Sulutions of high polymers. Journal of the American Chemical Society, 64,
INRA (2006). SAFE FOOD PACKAGING PORTAL. This site is dedicated to the development of decision tools based
on numerical simulation and databases for the food and packaging community.
Karayiannis N. C., V.G Mavrantzas and D.N Theodorou (2001). Diffusion of small molecules in disordered media:
study of the effect of kinetic and spatial heterogeneities. Chemical Engineering Science, 56, 27892801.
Kausch H. H., Heymans N., Plummer C.J., Decroly P. (2001). Traité des Matériaux ­ volume 14 ­ Matériaux
polymères: propriétés mécaniques et physiques. Presse Polytechnique et Universitaires Romandes, Lausanne.
Keffer D. J., Edwards B. J. et Adhangale, P. (2004). Determination of statiscally reliable transport diffusivities
from molecular dynamics simulation. Journal of NonNewtonian Fluid Mechanics, 120, 4143.
Klenin V. J. (1999). Thermodynamics of systems containing flexiblechain polymers. Elsevier Science,
Amsterdam. 826p.
Kovarski A. L. (1997). Molecular Dynamics of Additives in Polymers. VSP Utrecht, PaysBas.
Krishna R. et Wesselingh J. A. (1997). The MaxwellStefan approach to mass transfer. Chemical Engineering
, 52(6), 861911.
Limm W. Et Hollifield H.C.(1996). Modelling of additive diffusion in polymers. Food Additives and
Lodge T. P. (1999). Reconciliation of the Molecular Weight Dependence of Diffusion and Viscosity in Entangled
Polymers. Physical Review Letters, 83, 32183221.
Mauritz K. A., Storey R. F. et George S. E. (1990). A general free volume based theory for the diffusion of large
molecules in amorphous polymers above Tg. 1. Application to Dinalkyl phthalates in PVC. Macromolecules,
23, 441450.
Mauritz K. A., Storey R. F. et George S. E. (1990). A General Free Volume Based Theory for the Diffusion of Large
Molecules in Amorphous Polymers above Tg. 2. Molecular Shape Dependence. Macromolecules, 23, 2033
Medick P., Vogel M. et Rössler E. (2002). Large angle jumps of small molecules in amorphous matrices analyzed
by 2D exchange NMR. Journal of Magnetic Resonance, 159, 126136.
Miller A. R. (1942). The number of configurations of a cooperative assembly. Proceedings of the Cambridge
Philosphical Society, 38, 109124.
Morrissey P. et Vesely D. (2000). Accurate measurement of diffusion rates of small molecules through
polymers. Polymer, 41(5). 1865­1872.
Neyertz S. et Brown D. (2004). Influence of system size in molecular dynamics simulations of gas permeation in
glassy polymers. Macromolecules, 37(26), 1010910122.
Pospisil, J. (1993). Chemical and photochemical behaviour of phenolic antioxidants in polymer stabilization: a
state of the art report. I. Polymer degradation and stability, 40(2), 217­232.
Prausnitz J.M. and Blanks R.F. (1964). Thermodynamics of Polymer Solubility in Polar and Nonpolar Systems.
Industrial Engineering and Chemistry Fundamentals, 3, 18.