| ||Mechanics of Solids|
A Journal of Russian Academy of Sciences
in January 1966
Issued 6 times a year
Print ISSN 0025-6544
Online ISSN 1934-7936
Archive of Issues
|Total articles in the database:|| ||4893|
|In Russian (Èçâ. ÐÀÍ. ÌÒÒ):|| ||2340|
|In English (Mech. Solids):|| ||2553|
|V.O. Kaledin, Vl.O. Kaledin, and A.D. Ulianov, "Calculation Model for the Analysis of Strength and Stability of Anisogrid Mesh Structures under Intensive Thermal Force," Mech. Solids. 53 (4), 470-478 (2018)|
||Calculation Model for the Analysis of Strength and Stability of Anisogrid Mesh Structures under Intensive Thermal Force|
||V.O. Kaledin (Novokuznetsky Institute for Problems in Mechanics RAS, ul. Tsialkovskogo 23, Novokuznetsk, Kemerovskaya oblast, 654041 Russia)|
Vl.O. Kaledin (The Central Research Institute for Special Machinery, ul. Zavodskaya 1, Khotkovo, Moscow Region, 141371 Russia, email@example.com)
A.D. Ulianov (Novokuznetsky Institute for Problems in Mechanics RAS, ul. Tsialkovskogo 23, Novokuznetsk, Kemerovskaya oblast, 654041 Russia)
||The procedure for the numerical study of the stress-strain state and the stability of the mesh structures of polymer composite materials under intensive force and thermal effects is considered. A simplified mathematical model of the thermomechanical behavior of the mesh structure is proposed, taking into account the reversible and irreversible changes in the physicomechanical properties of the material during heating. The design process of computational algorithms is described.|
||anisogrid mesh sheaths, polymer composites, thermo-stressed structures, mathematical modeling|
|1. ||Yu.S. Solomonov, V.V. Vasilyev, and V.P. Georgievsky,
"Composite Materials in Rocket and Aerospace Engineering,"
Trudy Mosk. Inst. Teplotech.
8 (1), 7-25 (2006).|
|2. ||V.A. Barynin, V.A. Bunakov, V.V. Vasilyev, and B.G. Mayorov,
"Composite Mesh Constructions (review),"
Vopr. Obor. Teck.
Ser. 15. Iss. 1 (123)-2 (124), 9-16 (2001).|
|3. ||V.V. Vasilyev, V.A. Barynin, A.F. Razin, S.A. Petrokovsky, et al.,
"Anisogride Composite Structures - Development and Application to Space Technology,"
No. 3, 38-50 (2009).|
|4. ||Yu.N. Rabotnov,
Mechanics of a Deformable Solid
(Nauka, Moscow, 1988) [in Russian].|
|5. ||V.O. Kaledin, A.D. Ulyanov, and Vl.O. Kaledin,
"The Final Element of the Timoshenko Shear Beam with Regard to Temperature Deformations and Material Burning out"
Nauch. Tekh. Vest. Povolg.
2017. No. 5, 141-144 (2017).|
|6. ||S.A. Ambartsumyan,
Theory of Anisotropic Plates: Durability, Stability and Vibration
(Nauka, Moscow, 1987) [in Russian].|
|7. ||J. Robinson,
Understanding Finite Element Stress Analysis
|8. ||S.Yu. Eremenko,
Finite-Element Methods in Mechanics of Deformable Bodies
(Osnova, Kharkov, 1991) [in Russian].|
|9. ||K.-J. Bate,
Finite Element Methods
(FIZMATLIT, Moscow, 2010) [in Russian].|
|10. ||O. Zenkevich,
Method of Finite Elements in Engineering
(Mir, Mocsow, 1975) [in Russian].|
|11. ||Yu.I. Dimitrienko, V.V. Minin, and E.K. Syzdykov,
"Numerical Modeling of Heat and Mass Transfer Processes and Stress Kinetics in Thermodestructive Composite Shells,"
17 (2), 43-59 (2012).|
|12. ||V.L. Strakhov, A.A. Filipenko, A.V. Ostrik, A.B. Mitkevich, et al.,
"Complex Model of the Interaction of Composites with Radiation and Gas Flow,"
Inzh. Fiz. J.
73 (1), 67-74 (2000) [J. Engng Phys. Therm. (Engl. Transl.) 73 (1), 65-72 (2000)].|
|13. ||V.O. Kaledin, Y.S. Kryukova, N.V. Nagaitseva, and E.V. Ravkovskaya,
"Software System for Algorithmization of the Numerical Solution of Continuum Mechanics Problems,"
Izv. Altai Gos. Univ.
81 (1), 161-164 (2014).|
||22 March 2018|
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