NUMERICAL SIMULATION OF DEFORMATION AND FRACTURE FILLED NONEQUIAXIAL INCLUSIONS INORGANIC COMPOSITE MATERIALS

Gromov S.V

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The paper presents the results of a numerical simulation of deformation and fracture filled nonequiaxial inorganic inclusions (short grain, multi-walled carbon nanotubes tube, plate inclusion) composite materials. The use of high-strength and high-modulus fibers allows you to create composite materials that have low mass, to manage physical, mechanical, electrical, thermal properties, adjust the anisotropy of these characteristics, providing maximum performance in a selected direction. These features allow you to use these materials to create a design with high performance weight for various applications. Appointment of material requirements governing the conditions of his work in the products, determine the choice of reinforcement scheme, the matrix material and a reinforcing filler. The need to provide a high plastic deformation of the composite material makes it useful as a matrix material thermoplastic polymers capable of going into high condition and undergoing chemical transformation by a process of heating and cooling.

Библиографическая ссылка

Громов C.В ЧИСЛЕННОЕ МОДЕЛИРОВАНИЕ ДЕФОРМИРОВАНИЯ И РАЗРУШЕНИЯ НАПОЛНЕННЫХ НЕРАВНООСНЫМИ НЕОРГАНИЧЕСКИМИ ВКЛЮЧЕНИЯМИ КОМПОЗИЦИОННЫХ МАТЕРИАЛОВ // Научное обозрение. Физико-математические науки . 2020. № 1. С. 27-27;
URL: https://physics-mathematics.ru/en/article/view?id=26 (дата обращения: 24.06.2026).