Chemistry Reference
In-Depth Information
22. Kozlov, G. V., Temiraev, K. B., & Shustov, G. B. (1998). The Structure Change in Extru-
sion Process of Amorphous Polyarylates. Plast
.
Massy,
9
, 27-29.
23. Kozlov, G. V., & Novikov, V. U. (2001). The Cluster Model of Polymers Amorphous
State. Uspekhi
Fizicheskikh
Nauk,
171(7)
, 717-764.
24. Aloev, V. Z., Kozlov, G. V., Dolbin, I. V., & Beloshenko, V. A. (2001). Structure and
Properties of Extruded Polyarylate. Izvestiya
KBNC
RAN
, 1,
70-78.
25. Shogenov, V. N., Belousov, V. N., Potapov, V. V., Kozlov, G. V., & Prut, E. V. (1991).
The Glassy Polyarylatesulfone Curves Stress-Strain Description within the Frameworks
of High-Elasticity Concepts. Vysokomolek
.
Soed
.
A
., 33(1)
, 155-160.
26. Inoue, N., Nakayama, N., & Ariyama T. (1981). Hydrostatic Extrusion of Amorphous
Polymers and Properties of Extrudates. J
.
Macromol
.
Sci
.-
Phys., B
19(2)
, 543-563.
27. Mandelbrot, B. B. (1982). The Fractal Geometry of Nature. San-Francisco, W.H.Freeman
and Comp., 459 p.
28. Oldham, K., & Spanier, Y. (1973). Fractional
Calculus. London, New York, Academic
Press, 329 p.
29. Samko, S. G., Kilbas, A. A., & Marichev, O. I. (1987). Integrals and Derivatives of Frac-
tional Order and their Some Applications
.
Minsk
,
Nauka
i
Tekhnika, 688 p.
30. Nigmatullin, R. R. (1992). Fractional Integral and its Physical Interpretation. Teoreti-
shaya
i
Matematicheskaya
Fizika
, 90(3)
, 354-367.
31. Kozlov, G. V., Aloev, V. Z., & Yanovskii, Yu. G. (2003). The Simulation of Polymeriza-
tion-Filled Compositions Extrudates Yielding on the Basis of Derivatives of Fractional
Order. Inzhenernaya
Fizika
, 3,
31-33.
32. Kozlov, G. V., Aloev, V. Z., Yanovskii, Yu. G., & Zaikov, G. E. (2005). Yielding Process
of Polymerization-Filled Composites: a Description within the Frameworks of the Frac-
tional order Derivatives Theory. J. Balkan Tribologic. Assoc.,
11(5)
, 221-226.
33. Mikitaev, A. K., & Kozlov, G. V. (2008). Fractal
Mechanics
of
Polymeric
Materials.
Nal'chik, Publishers of KBSU, 312 p.
34. Kozlov, G. V., Yanovskii, Yu. G., & Zaikov, G. E. (2010). Structure and Properties of
Particulate-Filled Polymer Composites: the
Fractal
Analysis New York, Nova Science
Publishers Inc. 282 p.
35. Meilanov, R. R., Sveshnikova, D. A., & Shabanov, O. M. (2001). Sorption Kinetics in
Systems with Fractal Structure. Izvestiya VUZov, Severo
-
Kavkazsk
.
Region
,
estestv
.
Nauki
, 1,
63-66.
36. Kekharsaeva, E. R., Mikitaev, A. K., & Aleroev, I. S. (2001). Model of Stress-Strain
Characteristics of Chlor-Containing Polyesters on the Basis of Derivatives of Fractional
Order. Plast
.
Massy
, 3,
35.
37. Adams, G. W., & Farris, J. (1989). Latent Energy of Deformation of Amorpous Poly-
mers. 1. Deformation
Calorimetry
.
Polymer,
30(9)
, 1824-1828.
38. Balankin, A. S., & Bugrimov, A. L. (1992). The Fractal Theory of Polymers Plasticity.
Vysokomolek
.
Soed
.
A,
34(10)
, 135-139.
39. Halsey, I. C., Jensen, M. H., Kadanov, L. P., Procaccia, I., & Shraiman, B. I. (1986).
Fractal Measures and their Singularities: the
Characterization
of
Strange
Sets
.
Phys
.
Rev
.
A
, 33(2)
, 1141-1151.
40. Kozlov, G. V., Shystov, G. B., & Zaikov, G. E. (2003). Fractal Analysis of Themooxida-
tive Degradation Process of Polymeric Melts. J
.
Appl
.
Polymer
Sci,
89(9)
, 2378-2381.
