On the theoretical strength limit of the layered elastic and viscoelastic composites in compression

Çilli, Arzu

doi:10.1016/j.apm.2011.04.032

Cited by 4 publications

(3 citation statements)

References 11 publications

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“…It is seen in Fig. 1 that composite material consisting of alternate layers of two materials is under pressure along equally dispersed infinity reinforcement layers [10]. It will be assumed that the reinforcing (matrix) layers are placed on the planes parallel to the Ox 1 x 3 plane and the thickness of each filling layer is constant.…”

Section: Theoretical Methods Of the Problemmentioning

confidence: 99%

“…However, it shows that the initial defect regions in its structure have a certain movement of all layers of the material according to each other. Therefore, in the article [10,11], research was developed for cases where the elastic layers that are supplements act according to each other in local initial defect regions. As a result of these procedures, the changes in the angle of the fracture criteria of different elastic materials obtained were created by artificial intelligence ANFIS method.…”

Section: Introductionmentioning

confidence: 99%

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Determination of Theoretical Fracture Criteria of Layered Elastic Composite Material by ANFIS Method from Artificial Intelligence

Çilli

Beken

KURT

2022

International Journal of Computational and Experimental Science and Engineering

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The theoretical breaking boundary of the composite elastic composite material consisting of two is otropichomogeneous layers was investigated [6,7]. Three-dimensional theory of elasticity and a fragment edhomogeneous body model were used to find the theoretical breaking limit [3,6,7]. The defects of this material, which has local defects, are of the same length hand is changing with the angle β. The purpose of the articles [10,11] was to examine the effect of theoretical refraction criterion limit values on the change of the angle β. It has been observed that the theoretical refraction limit values obtained for four different composite materials increase as the angle art increases. In this study, the change values with the β angle of the theoretical refraction limit obtained in [11] article were recovered from the artificial intelligence of the MATLAB platform by ANFIS (Sugeno) method. It was seen that the values obtained with the Anfis method are the same with the theoretical results.

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Section: Theoretical Methods Of the Problemmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Determination of Theoretical Fracture Criteria of Layered Elastic Composite Material by ANFIS Method from Artificial Intelligence

Çilli

Beken

KURT

2022

International Journal of Computational and Experimental Science and Engineering

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“…In conclusion it should be emphasized that nowadays the ideas of Russian Academician Rabotnov are widely used worldwide for solving intricate static and dynamic problems dealing with behaviour of hereditarily elastic bodies (see as examples the papers [1]- [5], [7,8], [15]- [21], etc. ), since Rabotnov's fractional order operator models allow one to decode rather easily different combinations of viscoelastic operators appearing in problems of mechanics of hereditary elastic bodies.…”

Section: −γ Imentioning

confidence: 99%

Centennial jubilee of Academician Rabotnov and contemporary handling of his fractional operator

Rossikhin

Shitikova

2014

Fract Calc Appl Anal

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This note is dedicated to the centennial jubilee of the Russian Academician Yury Rabotnov, who was a pioneer in the application of fractional operators in Mechanics of Solids. In the present Note, the authors wish to present a contemporary handling of Rabotnov operators introduced in 1948 and to show their connectedness with fractional derivatives, what provides the ageless interest to his ideas and results.MSC 2010 : 01A60, 26A33, 33E12, 34A08, 74D05, 74G50 Key Words and Phrases: fractional calculus, Rabotnov fractional exponential function, generalized Rabotnov fractional operator model * On February 24, 2014, Russian science and fractional calculus community all over the world celebrated the centennial anniversary of the birthday of the Russian Academician Yury Nikolaevich Rabotnov who was an outstanding scientist in the field of Solid Mechanics and made a basic contribution to the development of the theory of elasticity and plasticity, the theory of shells and stability of elastic and viscoplastic systems, the creep theory of metals and the hereditary theory of elasticity. He actively worked in the new directions of damage and fracture mechanics and mechanics of composite materials.

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Surface and Internal Stability Loss in the Structure of Elastic and Viscoelastic Layered Composites

Akbarov

2012

Stability Loss and Buckling Delamination

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On the theoretical strength limit of the layered elastic and viscoelastic composites in compression

Cited by 4 publications

References 11 publications

Determination of Theoretical Fracture Criteria of Layered Elastic Composite Material by ANFIS Method from Artificial Intelligence

Determination of Theoretical Fracture Criteria of Layered Elastic Composite Material by ANFIS Method from Artificial Intelligence

Centennial jubilee of Academician Rabotnov and contemporary handling of his fractional operator

Surface and Internal Stability Loss in the Structure of Elastic and Viscoelastic Layered Composites

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