Инд. авторы: | Golushko S., Buznik V., Nuzhny G. |
Заглавие: | Mathematical modeling and numerical analysis of reinforced composite beams |
Библ. ссылка: | Golushko S., Buznik V., Nuzhny G. Mathematical modeling and numerical analysis of reinforced composite beams // Journal of Physics: Conference Series. - 2019. - Vol.1268. - Iss. 1. - Art.012018. - ISSN 1742-6588. - EISSN 1742-6596. |
Внешние системы: | DOI: 10.1088/1742-6596/1268/1/012018; РИНЦ: 41809294; SCOPUS: 2-s2.0-85073901397; WoS: 000561766800018; |
Реферат: | eng: This paper is devoted to modeling the properties of composite materials and reinforced composite beams. Mathematical relations describing the nonlinear elastic three-point bending of isotropic and reinforced beams with account of different strength and stiffness behavior in tension and compression are obtained. An algorithm for numerical solution of corresponding boundary-value problems is proposed and implemented. Results of numerical analysis were compared to acquired data for polymer matrix and structural carbon fiber reinforced plastics. © Published under licence by IOP Publishing Ltd. |
Ключевые слова: | Continuum mechanics; Glass ceramics; Numerical analysis; Reinforcement; Mathematical relation; Carbon fiber reinforced plastics; Tension and compression; Strength and stiffness; Reinforced composites; Properties of composites; Numerical solution; Composite beams and girders; Boundary value problems; Three point bending; Nonlinear elastics; |
Издано: | 2019 |
Физ. характеристика: | 012018 |
Конференция: | Название: Всероссийская конференция и школа для молодых ученых, посвященные 100-летию академика Л.В. Овсянникова, «Математические проблемы механики сплошных сред» Аббревиатура: MPCM 2019 Город: Новосибирск Страна: Россия Даты проведения: 2019-05-13 - 2019-05-17 |
Цитирование: | 1. Golushko S 2019 Mathematical Modeling and Numerical Optimization of Composite Structures Optimum Composite Structures ed K Maalawi 2. Golushko S and Nemirovskii Yu 2008 Direct and Inverse Problems of Mechanics of Composite Plates and, Shells (Moscow: Fizmatlit) 432 in Russian 3. Golushko S and Nemirovskii Yu 1988 The review and analysis of approaches to the problem of optimal reinforced shells (Krasnoyarsk: Computing Center) 31 in Russian 4. Boyce M and Arruda E 2004 An experimental and anaiytical investigation of the large strain compressive and tensile response of glassy polymers Pol. Eng. Sc. 30 1288-98 5. Lagace P 1985 Nonlinear stress-strain behavior of graphite/epoxy laminates AIAA J. 23 1583-89 6. Timoshenko S 1955 Strength of Materials Part 1 Elementary Theory and Problems (New York: Van Nostrand) 359 7. Ambartsumyan S 1982 Theory of Materials Heteroresistant to Tension and Compression (Moscow: Nauka) 317 in Russian 8. Ambartsumyan S 2004 Strength of Materials Heteroresistant to Tension and Compression (Yerevan: RAU) 187 in Russian 9. Jones R 1978 Mechanics of Composite Materials with Different Moduli in Tension and Compression (Final scientific report AF0SR-TR-78-1400) 129 10. Ambartsumian S and Gnuni V 2005 The flexion of Non-linear Elastic Beam Taking into Consideration the Material Resistance to the Tension and Compression in Different Ways NAS RA Reports Mechanics in Russian 11. Amelina E, Golushko S, Erasov V, Idimeshev S, Nemirovskii Yu, Semisalov B, Yurchenko A and Yakovlev N 2015 Nonlinear deformation of carbon fiber reinforced plastics: experiment, model, and simulation Comp. Tech. 20 27-51 in Russian 12. Buznik B, Burkovskaya N, Zibareva I and Cherepanin R 2018 On problem of roadmapping of domestic Arctic material science (Part I) Inorg. Mater. Appl. Res. 9 32-40 13. Buznik B, Burkovskaya N, Zibareva I and Cherepanin R 2017 On problem of roadmapping of domestic Arctic material science (Part II) Materialovedeniye 5 22-8 in Russian 14. Golushko K, Golushko S and Yurchenko A 2011 On Modeling of Mechanical Properties of Fibrous Composites Computational Science and High Performance Computing IV ed E Krause, Yu Shokin, M Resch, D Kroner and N Shokina 107-20 15. Golushko S 2005 Direct and Inverse Problems in the Mechanics of Composite Plates and Shells Computational Science and High Performance Computing ed E Krause, Yu Shokin, M Resch and N Shokina 205-27 16. Nemirovskii Yu and Reznikov B 1986 Strength of Elements of Composite Structures (Novosibirsk: Nauka) 166 in Russian 17. Bolotin V and Novitchkov Y 1980 The Mechanics of Multilayered Constructions (Moscow: Mashinostroeniye) 371 in Russian 18. Golushko S, Idimeshev S and Semisalov B 2015 Methods for Solving Boundary-value Problems of Mechanics of Composites Plates and Shells (Novosibirsk: DTI DT SB RAS) in Russian 19. Golushko S and Yurchenko A 2010 Solution of boundary value problems in mechanics of composite plates and shells Rus. J. Num. Anal. and Math. Mod. 25 27-55 20. Golushko S, Morozova E and Yurchenko A 2005 On the numerical solution of boundary-value problems for rigid systems of differential equations Bulletin of Kazakh National University Series: Math. Mech. Info. 2 12-26 in Russian 21. Golushko S, Gorshkov V and Yurchenko A 2002 On two numerical methods for solving multipoint boundary-value problems Comp. Tech. 7 24-34 in Russian 22. Golushko S, Idimeshev S and Shapeev V 2013 Application of collocations and least residuals method to problems of the isotropic plates theory Comp. Tech. 18 31-43 in Russian 23. Golushko S, Idimeshev S and Shapeev V 2014 Development and application of collocations and least residuals method to the solution of problems in mechanics of anisotropic laminated plates Comp. Tech. 19 24-36 in Russian 24. Shapeev V, Belyaev V, Golushko S and Idimeshev S 2018 New possibilities and applications of the least squares collocation method EPJ Web Conf. 173 01012 |