Literature cited
L. A. Faitel'son, “Thixotropy and vibrothixotropy of filled polymer melts and disperse systems,” Dissertation for Doctor of Technical Sciences, Riga (1983).
T. Kitano, T. Kataoka, and Y. Nagatsuka, “Shear flow rheological properties of vinylonand glass-fiber reinforced polyethylene melts,” Rheol. Acta,23, No. 1, 20–30 (1984).
J. L. White, L. Czarnecki, and H. Tanaka, “Experimental studies of the influence of particle and fiber reinforcement on rheological properties of polymer melts,” Rub. Chem. Technol.,53, No. 4, 823–835 (1980).
Y. Suetsugu and J. L. White, “The influence of particle size and surface coating of calcium carbonate on the rheological properties of its suspensions in molten polystyrene,” J. Appl. Polymer Sci.,28, No. 4, 1481–1501 (1983).
G. V. Vinogradov, E. K. Borisenkova, and M. P. Zabugina, “The most important characteristic features of the viscoelastic behavior of fluid polymers containing a structuring filler,” Dokl. Akad. Nauk SSSR,277, No. 3, 614, 618 (1984).
M. G. Tsiprin and L. A. Irgen, Thixotropy and orientation during the tensioning of filled-polyethylene melts, Theses of Papers Presented at the Eighth All-Union Symposium on Rheology [in Russian], Volgograd (1984), p. 205.
V. E. Dreval', M. N. Tsidvintseva, M. L. Kerber, E. K. Borisenkova, A. S. Kechek'yan, and N. P. Krasnikova, “Rheological and deformation-strength characteristics of polyethylene containing powder and fibrous fillers,” Mekh. Kompozitn. Mater., No. 3, 505–511 (1987).
H. Tanaka and J. L. White, “Experimental investigation of shear and elongational flow properties of polystyrene melts reinforced with calcium carbonate, titanium oxide, and carbon black,” Polymer Eng. Sci.,20, No. 14, 949–956 (1980).
A. Ya. Malkin and A. E. Chalykh, Polymer diffusion and viscocity, Methods of Measurement [in Russian], Moscow (1979).
V. V. Volosevich, “Investigation of viscocity and limiting (tearing) properties of linear elastomers by the method of uniaxial tensioning,” Dissertation for Candidate of Chemical Sciences, Moscow (1976).
G. V. Vinogradov and A. Ya. Malkin, Polymer Rheology [in Russian], Moscow (1977).
V. E. Dreval' and G. V. Vinogradov, “A generalized rheological characteristic of polymer melts containing a highly disperse filler,” Kolloidn. Zh.,51, No. 2, 237–243 (1989).
E. K. Borisenkova, V. E. Dreval', and G. V. Vinogradov, “Rheological behavior of noncross-linked filled elastomers under uniaxial tension, Vysokomolek. Soedin. Ser. A,30. No. 6, 1328–1332 (1988).
E. K. Borisenkova, V. E. Dreval, G. V. Vinogradov, M. K. Kurbanaliev, V. V. Moiseev, and V. G. Shalganova, “Transition of polymers from fluid to the high-elastic and leathery states at temperatures above the glass transition,” Polymer,23, No. 1, 91–99 (1982).
G. M. Bartenev, Structure and Relaxation Properties of Elastomers [in Russian] Moscow (1979).
J. D. Ferry, Viscoelastic Properties of Polymers, 3rd edition, New York (1980).
Yu. M. Malinskii, “On the influence exerted by a hard surface on the relaxation and structure-formation processes in the near-wall layers of polymers,” Usp. Khim.,39, No. 8, 1511–1535 (1970).
Yu. S. Lipatov, Colloidal Chemistry of Polymers [in Russian], Kiev (1984).
Author information
Authors and Affiliations
Additional information
Translated from Mekhanika Kompozitnykh Materialov, No. 4, pp. 725–733, July–August, 1991.
Rights and permissions
About this article
Cite this article
Dreval', V.E., Borisenkova, E.K. & Dubrovina, M.V. Rheologic behavior under tension and the deformation-strength characteristics of polyethylene containing highly disperse fillers. Mech Compos Mater 27, 481–488 (1992). https://doi.org/10.1007/BF00613581
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00613581