Mechanics of Solids
A Journal of Russian Academy of Sciences

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Print ISSN 0025-6544
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Issues > Archive of Issues > 2025-3 > pp.2112-2118

Archive of Issues

Total articles in the database:		13217
In Russian (Изв. РАН. МТТ):		8152
In English (Mech. Solids):		5065

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K.Z. Khairnasov, "Modeling and Analysis of Robotic System Made of Composite Material," Mech. Solids. 60 (3), 2112-2118 (2025)
Year	2025	Volume	60	Number	3	Pages	2112-2118
DOI	10.1134/S0025654425601855
Title	Modeling and Analysis of Robotic System Made of Composite Material
Author(s)	K.Z. Khairnasov (Moscow State University of Civil Engineering (National Research University), Moscow 129337 Russia, kamilh@mail.ru)
Abstract	The article discusses the development of a multi-degree model of a stand of a semi-natural modeling stand under dynamic loading. The presents a technique for obtaining a three-layer model of the stand, consisting of external load-bearing layers made of a five-layer composite material and a filler layer between them, made of a foam-type material. The approximation of the stand by finite elements was carried out with the change of elements that are inadequate implemented in the finite element method: bearings, gear rims, reducers, by systems of rods identical to them by of rigidity. The convergence of the calculation results was checked by thickening the finite element mesh. The stress-strain state of the stand under dynamic loading was obtained and the natural frequencies of oscillations were determined. The strength characteristics of the stand are determined depending on the location of the fibers in the layer in a five-layer composite material. Theories of destruction are used to calculate the strength characteristics of a five-layer composite material. The methods developed in the work are applicable to a wide class of robotic systems that are widely used in various fields of science and technology.
Keywords	robotic systems, composite materials, three-layer structures, dynamic loading, finite element method, stress-strain state, strength theories
Received	10 April 2025	Revised	20 April 2025	Accepted	21 April 2025
Link to Fulltext	https://link.springer.com/article/10.1134/S0025654425601855
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