M. I. Bykova scite author profile

In this paper, computer simulations of the hardness of ordered and disordered alloys of Cu−Ag and Au−Ag were performed using the Sutton-Chen potential and the GULP software package within several models. In addition, Poisson ratios were estimated. When simulating a chemical disorder, a super-cell containing 108 atoms was built. Numerical experiments have shown that chemical disorder in the studied alloys leads to hardness degradation.

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Mathematical modeling of transfer intensive of edges of spatial cracks on the fronts of longitudinal and shear waves by a ray method

Bykova¹,

Verveiko²,

Krupenko³

et al. 2020

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В ближайшей окрестности вершины плоской трещины, а в общем случае, вблизи передней кромки пространственной трещины, деформирование материала носит неупругий характер. В работе предложено лучевое моделирование высокоскоростного деформирования материала в δ-окрестности подвижной передней кромки трещины, используя динамическую упруговязкопластическую модель тела Бингама с условием пластичности Мизеса. Показано, что распространяющаяся передняя кромка трещины продольного сдвига лежит на поверхности сильного разрыва продольной скорости, бегущей со скоростью упругих продольных волн, а передняя кромка трещины отрыва и трещины поперечного сдвига лежит на поверхности сдвиговой волны, бегущей со скоростью волн сдвига. Введены интенсивности передних кромок трещин: скачок скорости сдвига поперек передней кромки трещины продольного сдвига, скачок поперечной скорости на передней кромке трещины отрыва, скачок касательной скорости к передней кромке трещины поперечного сдвига. Построены обыкновенные дифференциальные уравнения переноса интенсивностей передних кромок трещин вдоль лучей как ортогональных траекторий точек переднего фронта. Получены приближенные решения уравнений переноса интенсивностей передних кромок пространственных трещин в напряженный материал и приведены выражения для глубины проникания пространственных трещин. Показано изменение направления сдвига и отрыва в передних кромках соответствующих трещин в зависимости от напряженного состояния перед трещинами. Приведены графики численных расчетов переноса интенсивностей передних кромок трещин и глубины их проникания. In the near neighborhood of the top of the plane crack, and in General, in the space case, near the edge of the spatial crack, the deformations of the material have the inelastic character. In this article proposes the elasticviscoplastic model of the Bingham body with the condition of plasticity of Mises for modeling high velocity deformation material near of the top of crack. Shown that an edge of crack belong a surface of elastic wave: cracks of longitudinal shear belong of longitudinal wave and a crack of untiplane shear and avulsion belong a surface of shear wave. For intensity of the crack suggest a shock velocity on the curve of the edge of crack and made ordinary differential equation for transfer intensity of crack on the front of the wave. Shown that a distant of propagation edge of the crack depend from plastic deformation material on the front of the wave. In the process of propagation crack this direction of shear can change from a stresses in front of the wave. Three-D graphics show change intensity of the crack in a process of propagation from parameters.

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A model of dynamic reflection of a longitudinal shear crack from a stressed boundary

Bykova

Verveiko

Shashkin

et al. 2020

J. Phys.: Conf. Ser.

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The modeling of the phenomenon of reflection of the front edge of a longitudinal shear crack from a stressed boundary is considered. The front edge of crack is modeled by an extreme along the edge rupture of rates and stresses exceeding the plastic limit propagating as an orthogonal trajectory of a longitudinal wave of plastic loading. The dependence of the intensity of the reflected cracks of a simple shear and detachment (as a function of the angle of incidence of the initiating crack) on the stress at the boundary at the moment of reflection and on the physical constants of the material is investigated. The conditions for the absence of reflected cracks of shear and detachment and criteria for boundary stresses initiating the cracks of various types are obtained.

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Modeling of dynamic branching of a longitudinal shear crack at an inclusion

Bogomolova

Verveyko

Shashkin

et al. 2020

J. Phys.: Conf. Ser.

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Mathematical modeling of branching of the leading edge of a longitudinal shear crack on a porous inclusion is proposed. The leading edge of the crack is approximated by the δ-neighborhood of the plastic deformation of the material with the front of longitudinal or shear waves, at which the longitudinal or transverse velocities break when passing through the leading edge of the crack. Expressions are obtained and graphs of the relative intensity of the leading edges of the reflected cracks of longitudinal and transverse shear and the conditions for the generation of reflected cracks depending on the angle of intersection of the crack with inclusion and physical parameters of the material are constructed.

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M. I. Bykova

The Effect of High Hydrostatic Pressure on the Mechanical Properties of the Binary Alloys of the System AuAg3, AgAu3 and Their Components Using Computer Simulation

Computer simulations of the influence of atomic structure disorder on the hardness of Cu − Ag and Au − Ag alloys

Mathematical modeling of transfer intensive of edges of spatial cracks on the fronts of longitudinal and shear waves by a ray method

A model of dynamic reflection of a longitudinal shear crack from a stressed boundary

Modeling of dynamic branching of a longitudinal shear crack at an inclusion

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