Chemistry Reference
In-Depth Information
50. Matsuoka, S., Aloisio, C. Y., & Bair, H. E. (1973)
.
Interpretation
of
Shift
of
Relaxation
Time
with
Deformation
in
Glassy
Polymers
in
Terms
of
Excess
Enthalpy
.
J. Appl. Phys.,
44(10)
, 4265-4268.
51. Kosa, N., Serdyuk, V. D., Kozlov, G. V., & Sanditov, D. S. (1995)
.
The
Comparative
Analysis
of
Forced
Elasticity
Process
for
Amorphous
and
Semicrystalline
Polymers
.
Fizika I Tekhnika Vysokikh Davlenii,
5(4)
, 70-81.
52. Kargin, V. A., & Sogolova, I. I. (1953)
.
The
Studu
of
Crystalline
Polymers
Mechanical
Properties
.
I. Polyamides Zhurnal Fizicheskoi Khimii,
27(7)
, 1039-1049.
53. Gent, A. N., & Madan, S. (1989)
.
Plastic
Yielding
of
Partially
Crystalline
Polymers
.
J.
Polymer Sci.” Part B: Polymer Phys.,
27(7)
, 1529-1542.
54. Mashukov, N. I., Belousov, V. N., Kozlov, G. V., Ovcharenko, E. N., & Gladychev, G.
P. (1990)
.
The
Connection
of
Forced
Elasticity
Stress
and
Structure
for
Semicrystalline
Polymers
.
Izvestiya AN SSSR, seriya khimicheskaya,
9
, 2143-2146.
55. Sanditov, D. S., Kozlov, G. V., Belousov, V. N., & Lipatov, Yu. S. (1994)
.
The
Clus-
ter
Model
and
Fluctuation
Free
Volume
Model
of
Polymeric
Glasses
.
Fizika i Khimiya
Stekla,
20(1)
, 3-13.
56. Graessley, W. W., & Edwards, S. F. (1981)
.
Entanglement
Interactions
in
Polymers
and
the
Chain
Contour
Concentration
.
Polymer,
22(10)
, 1329-1334.
57. Adams, G. W., & Farris, R. Y. (1989)
.
Latent
Energy
of
Deformation
of
Amorphous
Polymers
.
1. Deformation Calorimetry. Polymer,
30(9)
, 1824-1828.
58. Oldham, K., & Spanier, J. (1973)
.
Fractional
Calculus
.
London, New York, Academic
Press, 412 p.
59. Samko, S. G., Kilbas, A. A., & Marishev, O. I. (1987)
.
Integrals
and
Derivatives
of
Frac-
tional
Order
and
their
some
Applications
.
Minsk, Nauka i Tekhnika, 688 p.
60. Nigmatullin, R. R. (1992)
.
Fractional
Integral
and
its
Physical
Interpretation
.
Teo-
reticheskaya i Matematicheskaya Fizika,
90(3)
, 354-367.
61. Feder, F. (1989)
.
Fractals
.
New York, Plenum Press, 248 p.
62. Kozlov, G. V., Shustov, G. B., & Zaikov, G. E. (2002)
.
Polymer
Melt
Structure
Role
in
Heterochain
Polyeters
Thermooxidative
Degradation
Process
.
Zhurnal Prikladnoi Khi-
mii,
75(3)
, 485-487.
63. Kozlov, G. V., Batyrova, H. M., & Zaikov, G. E. (2003)
.
The
Structural
Treatment
of
a
number
of
Effective
Centres
of
Polymeric
Chains
in
the
Process
of
the
Thermooxidative
Degradation
.
J. Appl. Polymer Sci.,
89(7)
, 1764-1767.
64. Kozlov, G. V., Sanditov, D. S., & Ovcharenko, E. N. (2001)
.
Plastic
Deformation
Energy
and
Structure
of
Amorphous
Glassy
Polymers
.
Proceeding of Internat. Interdisciplin-
ary Seminar “Fractals and Applied Synergetics FiAS-01”, 26-30 November, Moscow,
81-83.
65. Meilanov, R. P., Sveshnikova, D. A., & Shabanov, O. M. (2001)
.
Sorption
Kinetics
in
Systems
with
Fractal
Structure
.
Izvestiya VUZov, Severo-Kavkazsk. Region, estestv
nauki,
1
, 63-66.
66. Kozlov, G. V., & Mikitaev, A. K. (2007)
.
The
Fractal
Analysis
of
Yielding
and
Forced
High
-
Elasticity
Processes
of
Amorphous
Glassy
Polymers
.
Mater. I-th All-Russian Sci-
Techn. Conf. “Nanostructures in Polymers and Polymer Nanocomposites”. Nal¢chik,
KBSU, 81-86.