Literature cited
A. G. Dement'ev and O. G. Tarakanov, Structure and Properties of Plastic Foams [in Russian], Khimiya, Moscow (1983).
G. C. J. du Bart and G. M. R. du Cause Nazelle, Certification of Thermal Conductivity Aging of PUR Foam, Polyurethanes World Congress, Netherlands (1991), pp. 75∓80.
J. R. Shankland, Blowing Agent Emission from Insulation Foams, Polyurethanes World Congress, Netherlands (1991), pp. 91–98.
F. J. Norton, “Thermal conductivity and life of polymer foams,” J. Cellular Plast.,3, No. 1, 23–36 (1967).
G. M. F. Jeffs and D. J. Sparrow, “Progress in the reduction and elimination of the use of CFC-s in rigid polyurethane foam,” Cellular Polymer,9, No 4, 253 (1990).
D. A. Brandreth and Ingersoll, “Accelerated ageing of rigid polyurethane foam,” Eur. J. Cellular Plast.,3, 134 (1980).
A. G. Ostrogorsky and L. R. Glicksman, “Electrical analogy of gas diffusion in closed cell foams,” J. Cellular Plast.,24, No. 3, 215 (1988).
G. Roux and G. Tramblay, “Prediction of the long-term insulation value of PUR foams. The Acermi Method,” Cellular Polymer,9, No. 4, 278–293 (1990).
A. Cunningnam and Sparrow, “Rigid polyurethane foam. What makes it the most effective insulant?,” Cellular Polymer,5, No. 5. 327–347 (1986).
G. W. Ball, W. G. Healey, and J. B. Partington, “The thermal conductivity of isocyanate-based rigid cellular plastics. Performance in practice,” Eur. J. Cellular Plastics,1, No. 1, 50–63 (1978).
A. A. Berlin and F. A. Shutov, Polymer Foams Based on Reactive Oligomers [in Russian], Nauka, Moscow (1978).
O. G. Tarakanov, I. V. Shamov, A. G. Dement'ev, and G. I. Kagan (ed.), Methodological Instructions Pertaining to Physicomechanical Test Methods [in Russian], Moscow (1984).
A. G. Dement'ev, T. K. Khlystalova, A. I. Demina, and P. A. Zinger, “Structural physical properties of polyurethane foams with various foaming agents,” Vysokomol. Soed. Ser A,33, No 10, 2257–2266 (1991).
A. G. Dement'ev, T. K. Khlystalova, and I. I. Mikheeva, “Diffusion and sorption of water vapor in polyurethane foam,” Vysokomol. Soed. Ser. A,31, No 10, 2084–2088 (1989).
K. I. Tsirule and E. A. Putnin'sh, “Estimation of gas permeability and its relationship to the macrostructure of rigid polyurethane foam,” Authors' Abstracts of Reports for the Sixth All-Union Conference on the Mechanics of Polymeric and Composite Materials, Zinatne, Riga (1986), pp. 173–174.
A. G. Dement'ev and O. G. Tarakanov, “Statistical study of the failure of rigid plastic foams under short-term loading,” Mekh. Kompozitn. Mater., No. 3, 449–453 (1982).
I. V. Beverte, “Poisson's ratios of light, transversely isotropic plastic foams deformed at right angles to the foaming direction,” Mekh. Kompozitn. Mater., No. 4, 703–711 (1991).
A. F. Zilauts and A. Zh. Lagzdin', “Single-bar model of cellular media under high elastic deformations,” Mekh. Kompozitn. Mater., No. 1, 3–10 (1992).
Yu. S. Urzhumtsev and R. D. Maksimov, Prediction of the Deformability of Polymeric Materials [in Russian], Zinatne, Riga (1975).
A. G. Dement'ev, A. K. Zhitinkina, and E. P. Ronzhina, “Long-term use of the polyisocyanurate plastic foam Izolan-3 for insulation of centralized heat-supply systems,” Plast. Massy.,12, 55–56 (1988).
Author information
Authors and Affiliations
Additional information
Translated from Mekhanika Kompozitnykh Materialov, Vol. 29, No. 4, pp. 552–558, July–August, 1993.
Rights and permissions
About this article
Cite this article
Dement'ev, A.G., Khlystalova, T.K. & Zinger, P.A. Diffusion of foaming agents and prediction of the characteristics of polyurethane foams during aging. Mech Compos Mater 29, 418–423 (1994). https://doi.org/10.1007/BF00617169
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF00617169