Другие журналы
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Shpakova
Calculation of Phase Velocities of Traveling Waves in a Cylindrical Shell Based on the Solution Analysis of Boundary Problem of Forced Oscillations
Engineering Education # 08, August 2014 DOI: 10.7463/0814.0725783 pp.206-223
Method for solving an optimization problem of the structure of fiber reinforced composites under restrictions on thermal and strength properties
Engineering Education # 11, November 2013 DOI: 10.7463/1113.0621065 In this paper the authors formulated a problem of optimising the composite micro-structure, which is a problem of minimisation of the composite density under given restrictions on the components of effective elasticity and heat-conduction tensors, and effective limits of the composite strength. The authors proposed a method for solving an optimal design problem of a composite material reinforced with micro-spheres and designed for thermal shielding. The method of asymptotical averaging (homogenisation method) was used for calculating effective composite characteristics such as elastic and heat-conduction modulus tensors and strength limits; the finite element method was used for solving local 3D heat conduction and elasticity theory problems on the composite’s periodicity cells. The finite element method was implemented with the use of GCD software developed at “FN-11” department of Bauman MSTU. The Hooke Jeeves algorithm was used for solving optimisation problems. Numerical implementation of the proposed method of micro-structure optimisation was developed by the example of a composite based on glass micro-spheres.
Modeling of surfaces of composite strength on the basis of the microstructural finite element analysis
Engineering Education # 11, November 2012 DOI: 10.7463/1112.0496336 In this work a method of microstructural finite element analysis for calculation of strength surface of composite materials with periodic fabric structure of reinforcement on the basis of a developed software was proposed. This method is a method of asymptotic averaging adapted for multi-scale periodic structures developed by Prof. Y. Dimitrienko at the "Computational Mathematics and Mathematical Physics" department. The method is based on solving a special class of elasticity problems on 1/8th of the periodicity cell of the composite in order to determine effective elastic properties of the material. The results of calculation of ultimate strength for disperse reinforced and textile composites are presented.
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