Computational Estimate of the Initial Damage Effect on the Fatigue Strength of Composite Materials

Shramko, Konstantin Konstantinovich; Kononov, Nikolai Olegovich; Lutoshkina, Arina Evgenevna; Shadrinov, Aleksey Viktorovich

doi:10.3390/jcs7100438

J. Compos. Sci.

2023

DOI: 10.3390/jcs7100438

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Computational Estimate of the Initial Damage Effect on the Fatigue Strength of Composite Materials

Konstantin Konstantinovich Shramko,

Nikolai Olegovich Kononov,

Arina Evgenevna Lutoshkina

et al.

Abstract: An estimate of the effect of initial damage, such as delamination in the area of a structural hole, on the static and fatigue strength of polymer composite material (PCM) based on computational mechanics methods is presented. Calculation for durability of structural elements made of PCM is conducted using Simcenter 3D—Samcef package and Specialist Durability module. A typical carbon fiber-reinforced plastic with the available physical and mechanical characteristics obtained from the tests was chosen as the stu… Show more

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Cited by 2 publications

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Parametric identification of coefficients for fatigue stiffness degradation model of a composite material

Panteleev,

Turbin,

Nadorov

et al. 2024

E3S Web Conf.

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The problem of finding the fatigue characteristics of a composite material based on test results is considered. As a mathematical model of stiffness degradation, a non-linear ordinary differential equation with five unknown parameters is used, reflecting characteristic changes in the properties of the material. It is required to find such parameter values that the solution of the differential equation describes the available test re- sults with sufficient accuracy. The solution procedure is reduced to the problem of optimizing the objective function, the value of which characterizes the achieved accuracy. The optimization methods used were a method that simulates the behavior of a flock of moths and a method of sequential reduction of the search set. A step-by-step algorithm for finding the unknown parameters of the model is proposed, and numerical results are presented for processing three versions of experimental data containing information about the change in the elastic modulus of the composite material during the application of load cycles.

show abstract

Parametric identification of coefficients for fatigue stiffness degradation model of a composite material

Panteleev,

Turbin,

Nadorov

et al. 2024

E3S Web Conf.

View full text Add to dashboard Cite

show abstract

Parametric identification of coefficients for a model of fatigue stiffness degradation of a composite material

Panteleev,

Turbin,

Nadorov

et al. 2024

VESTNIK of Samara University. Aerospace and Mechanical Engineer

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The problem of finding the fatigue characteristics of a composite material based on test results is considered. The results of endurance tests of unidirectional polymer composite materials with different initial stiffness, breaking stress and working cycle stress were used as the initial data. As a mathematical model of stiffness degradation, a nonlinear ordinary differential equation with five unknown parameters is used, reflecting characteristic changes in the properties of the material. It is required to find such parameter values that the solution of the differential equation should describe the available test results with sufficient accuracy. The solution procedure is reduced to the problem of optimizing the objective function, the value of which characterizes the achieved accuracy. As optimization methods, a method simulating the behavior of a flock of moths and a method of sequential reduction of the search set were used. A step-by-step algorithm for finding unknown model parameters is proposed, and numerical results of processing input data containing information on changing the elasticity modulus of the composite material in the course of applying load cycles are presented.

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Computational Estimate of the Initial Damage Effect on the Fatigue Strength of Composite Materials

Cited by 2 publications

References 25 publications

Parametric identification of coefficients for fatigue stiffness degradation model of a composite material

Parametric identification of coefficients for fatigue stiffness degradation model of a composite material

Parametric identification of coefficients for a model of fatigue stiffness degradation of a composite material

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