Effective Elastic Properties of 3D Composites with Short Curvilinear Fibers: Numerical Simulation and Experimental Validation

Mykhas’kiv, V. V.; Stasyuk, B. M.

doi:10.4028/www.scientific.net/ssp.258.452

Cited by 11 publications

(3 citation statements)

References 8 publications

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“…For this purpose, the approach based on the concept of representative volume elements (RVE) is often used in recent simulations [18,19]. For instance, in publications [20][21][22] devoted to effective mechanical properties of nanocomposites, the influence of interfacial surfaces [23] is studied, that significantly affect both elastic fields and effective modules of composite materials.…”

Section: Analysis Of Publicationsmentioning

confidence: 99%

Improving the Mechanical Properties of Liquid Hydrocarbon Storage Tank Materials

Sierikova

Koloskov

Degtyariov

et al. 2022

MSF

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Methods for effective modules evaluation of materials with nanoinclusions of different shapes have been developed. The strength and dynamic characteristics of tanks and structures of fuel tanks and cisterns were determined by solving hydroelastic interaction issues. Especially important are the researches of the structures strength under the impulse, shock and seismic loads conditions. The crucial issue of ensuring the reliability and trouble-free operation of liquid hydrocarbon storage systems today has been remain actual. The aim of the paper is to improve the mechanical properties of liquid hydrocarbon storage tank materials.The refined mathematical model has been proposed to clarify the frequencies and shapes of free tank oscillations of the partially filled by liquid due to the internal partitions presence taking into account the surface tension of the aggregate on the dynamic characteristics of liquid hydrocarbon storage tank at low gravity. The method for studying free and forced oscillations of the elastic rotation shell with the arbitrary meridian partially filled with the ideal incompressible fluid has been developed. To research the free and forced oscillations of shell structures with compartments containing liquid, the method of given shapes has been developed.Nanocomposites with aluminum matrix with steel spherical inclusions and with steel and carbon inclusions-fibers have been considered. The effective modules of these composites have been estimated. The calculations results demonstrate the obtained composite materials strengthening in the while density reducing. The method to specify the static and dynamic characteristics of shell structures made of different composite materials and partially filled with liquid has been developed. Numerical analysis of static and dynamic characteristics for the liquid hydrocarbon storage tank model has been performed.

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Section: Analysis Of Publicationsmentioning

confidence: 99%

Improving the Mechanical Properties of Liquid Hydrocarbon Storage Tank Materials

Sierikova

Koloskov

Degtyariov

et al. 2022

MSF

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“…Recently, publications devoted to the determination of the mechanical properties of nanocomposites have been treating the effects of the interfacial surfaces presence, which could significantly affect both elastic fields and effective modules of composite materials. The Gurtin-Murdoch model [1] of the elastic surface has been often used in recent publications on nanocomposites [2,3]. This model reveals the dependence of surface tension on the size of the inclusion as the important feature of nanocomposites.…”

Section: Analysis Of Publicationsmentioning

confidence: 99%

“…Taking into account the nonclassical Gurtin-Murdoch conditions, it has been applied equation ( 6) and the additional differential relation that has the form [2,3] Materials Science Forum Vol. 1038 147…”

Section: Nonclassical Gertin-murdoch Conditionsmentioning

confidence: 99%

The Deformable and Strength Characteristics of Nanocomposites Improving

Sierikova

Koloskov

Degtyariov

et al. 2021

MSF

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Mechanical properties of composites and nanocomposites have been considered in the assumptions of linear elasticity. To describe the nanoscale contact between matrices and inclusions on the interface surface, the conditions of ideal contact and non-classical Gurtin-Murdoch conditions have been implemented. The influence of shapes and relative sizes of inhomogeneities and matrices of representative volumes on the effective elasticity modulus of nanocomposites has been treated. Matrices in the form of cube and cylinder of finite sizes and inhomogeneity in the form of spheres and fibers have been considered. Finite element-based calculation models have been generalized to composites with distributed nanoinclusions of random and ordered orientation. The resulting models create the informative base for nanocomposites synthesis technologies with improved deformable and strength characteristics.

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Modeling Nanocomposites with Ellipsoidal and Conical Inclusions by Optimized Packing

Romanova

Pankratov

Litvinchev

et al. 2021

Computer Science and Health Engineering in Health Services

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Effective Elastic Properties of 3D Composites with Short Curvilinear Fibers: Numerical Simulation and Experimental Validation

Cited by 11 publications

References 8 publications

Improving the Mechanical Properties of Liquid Hydrocarbon Storage Tank Materials

Improving the Mechanical Properties of Liquid Hydrocarbon Storage Tank Materials

The Deformable and Strength Characteristics of Nanocomposites Improving

Modeling Nanocomposites with Ellipsoidal and Conical Inclusions by Optimized Packing

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