Our website uses cookies. By continuing to use this site, you agree to our use of cookies in accordance with this notice and the Terms of Use.
Submit manuscript
Home / Journals / Herald of Technological University / Volume 17 Issue 12 / EMPIRIChESKIY SPOSOB OPREDELENIYa UPRUGIH HARAKTERISTIK POLIMEROV NA MODEL'NYH OBRAZCAH MINIMAL'NOGO VESA
EMPIRIChESKIY SPOSOB OPREDELENIYa UPRUGIH HARAKTERISTIK POLIMEROV NA MODEL'NYH OBRAZCAH MINIMAL'NOGO VESA
Submit manuscript Download PDF
Text Download PDF
Text
To cite
Citations:

EMPIRICHESKIY SPOSOB OPREDELENIYA UPRUGIH HARAKTERISTIK POLIMEROV NA MODEL'NYH OBRAZCAH MINIMAL'NOGO VESA
Zuev B M 1
Zueva E M 2
Danilaev M P 3
Authors:
1.  IOFH im. A. E. Arbuzova; A. E. Arbuzov Institute of Organic and Physical Chemistry

2.  KNITU; Kazan National Research Technological University

3.  KNITU-KAI; Kazan National Research Technical University (KAI)

Type:
Article
eLocation:
Status:
Published
Received:
20.04.2023
Accepted:
01.08.2025
Published:
01.08.2025
Subject area:
UDC 541.64:535.5
Language:
Russian
Keywords:
оптико-механические характеристики полимерных тел, вязкоупругость, концентрация, ползучесть, optomechanical characteristics of polymers, viscoelasticity, concentration, creep
Abstract and keywords
Abstract (English):
A disc model for determination of optomechanical characteristics of polymers is proposed. The model allows to determine at minimal weight (~1 gr.) all viscoelastic constants, which are required for quality estimation of newly synthesized polymers. A method for estimation of the current coefficient of the transverse strain (Poisson's coefficient) during the long-term creep of the plane-stressed model at the temperature range of the elastic, viscoelastic and highly elastic states is developed.

Keywords:
оптико-механические характеристики полимерных тел, вязкоупругость, концентрация, ползучесть, optomechanical characteristics of polymers, viscoelasticity, concentration, creep
References

1. N.N. Malinin, Prikladnaya teoriya plastichnosti i polzuchesti. M.: «Mashinostroenie», Moskva, 271 s. (1968)

2. M.M. Froht, Fotouprugost', T1 / Per. s angl. pod red. N.I. Prigorovskogo, M.: OGIZ, Moskva, 432 s. (1948)

3. L. Treloar, Fizika uprugosti kauchuka / Per. s angl. pod red. E.V. Kuvshinskogo, M.: I.L., 244 s. (1953)

4. M.M. Froht, Fotouprugost', T2 / Per. s angl. pod red. N.I. Prigorovskogo, M.: OGIZ, 456 s. (1950)

5. I.M. Ryzhik, I.S. Gradshteyn, Tablicy integralov, summ, ryadov i proizvedeniy M.L.: GITTL, 145 s. (1951)

6. B.M. Zuev, S.T. Stepanov, A.A. Korgov, Issledovaniya po teorii plastin i obolochek / Pod red. Galimova K.Z., Kazan': Iz-vo Kazanskogo un-ta, Vyp. 4, 550 s. (1966)

7. B.M. Zuev, N.M. Salihova, O.S. Arhireev, E.F. Gubanov, Vysokomolek. soed. A, T. 36, № 3, S. 402 (1994)

8. V.Ya. Anosov, S.A. Pogodin, Osnovnye nachala fiziko-himicheskogo analiza M.L.: Izd. AN SSSR, Moskva, 876 s. (1947)

9. S.N. Zhurkov, B.N. Narzulaev, ZhTF, T 23, № 10, S. 1677 (1953)

10. N.M. Belyaev, Soprotivlenie materialov M.L.: OGIZ, Moskva, 120 s. (1945)

11. E.L. Nikolai, Teoreticheskaya mehanika, Ch. II. Dinamika. M.L.: GIT-TL., Moskva, 303 s. (1952)

© vestniktu.ru
Agreement Personal data protection and processing policy Support Powered by Editorum,  Instructions
Login or Create
* Forgot password?