Chemistry Reference
In-Depth Information
3. Balankin, A. S. (1990). Self
-
Organization
and
Dissipative
Structures
in
Deformable
Body. Ris¢ma v ZhTF,
16(7)
, 14-20.
4. Belousov, V. N., Kozlov, G. V., Mashukov, N. I., & Lipatov, Yu. S. (1993). The
Ap-
plication
of
Dislocation
Analogues
for
Yielding
Process
Description
in
Crystallizable
Polymers. Doklady AN,
328(6)
, 706-708.
5. Honeycombe, R. W. K. (1968)
.
The
Plastic
Deformation
of
Metals
.
London, Edward
Arnold Publishers, Ltd, 398 p.
6. Flory, J. (1984)
.
Conformations
of
Macromolecules
in
Condensed
Phases
.
Pure Appl.
Chem.,
56(3)
, 305-312.
7. Gazaev, M. A., Kozlov, G. V., Mil¢man, L. D., & Mikitaev, A. K. (1996)
.
The
Turbu-
lent
Character
of
Amorphous
Glassy
Polymers
Forced
High
-
Elasticity
.
Fizika i Tekhnika
Vysokikh Davlenii,
6(1)
, 76-81.
8. Goldstein, R. V., & Mosolov, A. B. (1992)
.
Flow
of
Fractal
-
Broken
Ice
.
Doklady AN,
324(36)
р. 576-581.
9. Sanditov, D. S., & Bartenev, G. M. (1982)
.
Physical
Properties
of
Disordered
Structures
.
Novosibirsk, Nauka, 256 p.
10. Belousov, V. N., Kozlov, G. V., Mikitaev, A. K., & Lipatov, Yu. S. (1990)
.
Entanglements
if
Glassy
State
of
Linear
Amorphous
Polymers
.
Doklady AN SSSR,
313(3)
, 630-633.
11. 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
-
Elastiticty
Concepts
.
Vysokomolek. Soed. A,
33(1)
, 155-160.
12. Balankin, A. S., Bugrimov, A. L., Kozlov, G. V., Mikitaev, A. K., & Sanditov, D. S.
(1992)
.
The
Fractal
Structure
and
Physical
-
Mechanical
Properties
of
Amorphous
Glassy
Polymers
.
Doklady AN,
326(3)
, 463-466.
13. Kozlov, G. V., Beloshenko, V. A., Gazaev, M. A., & Novikov, V. U. (1996)
.
Mechanisms
of
Yielding
and
Forced
High
-
Elasticity
of
Cross
-
Linked
Polymers
.
Mekhanika Kompoz-
itnykh Materialov,
32(2)
, 270-278.
14. Haward, R. N. (1993)
.
Strain
Hardening
of
Thermoplastics
.
Macromolecules,
26(22)
,
5860-5869.
15. Bekichev, V. I., & Bartenev, G. M. (1972)
.
About
the
Method
of
Thermomechanical
Curves
of
Solid
Oriented
Polymers
Shrinkage
.
Vysokomolek. Soed.,
14(3)
, 545-550.
16. Bekichev, V. I. (1974)
.
To
Question
about
Forced
-
Elastic
Deformation
Mechanism
Vyso-
komolek
.
Soed. A,
16(8)
, 1745-1747.
17. Belyaev, O. F., & Belvatseva, E. M. (1974)
.
Macromolecules
Tension
Influence
on
Poly-
mers
Crystallization
from
Solutions
.
Vysokomolek. Soed. A,
16(1)
, 141-145.
18. Kozlov, G. V., & Novikov, V. U. (2001)
.
The
Cluster
Model
of
Polymers
Amorphous
State
.
Uspekhi Fizicheskikh Nauk,
171(7)
, 717-764.
19. Kozlov, G. V., Shystov, G. B., & Zaikov, G. E. (2003)
.
Solid
Polymers
Deformation
Mechanism
on
Forced
High
-
Elasticity
Plateau
.
Izvestiya VUZov, Severo-Kavkazsk. re-
gion, estestv. nauki,
2
, 58-60.
20. Witten, T. A., & Sander, L. M. (1983)
.
Diffusion
-
Limited
Aggregation
.
Phys. Rev. B,
27(9)
, 5687-5697.
21. Kozlov, G. V., Beloshenko, V. A., & Varyukhin, V. N. (1988)
.
Simulation
of
Cross
-
Linked
Polymers
Structure
as
Diffusion
-
Limited
Aggregate
.
Ukrainskii Fizicheskii Zhurnal,
43(3)
, 322-323.
