Investigation of Stress State of the Layered Composite with a Longitudinal Cylindrical Cavity
محورهای موضوعی : Applied Mechanics
1 - Department of Aircraft Strength of the National Aerospace University, Kharkov, Ukraine
کلید واژه: Cylindrical cavity in a layer, Composite, Analytical and numerical methods, Generalized Fourier method, Bessel Functions,
چکیده مقاله :
The article presents the study of the stress state of a two-layer composite with a cylindrical cavity located parallel to the surfaces of the layers. Displacements are set on the cavity and the upper and lower boundaries of the upper and lower layers, respectively. The three-dimensional elasticity solution has been obtained by the analytical-numerical generalized Fourier method with respect to the system of Lame equations in local cylindrical coordinates associated with cavity and Cartesian coordinates associated with boundaries of the layers. The infinite systems of linear algebraic equations resulting from satisfying the boundary conditions are solved by the reduction method. As a result, displacements and stresses have been obtained at various points of the elastic body. We have compared the stress-strain state of a two-layer structure with a cylindrical cavity located in either of the layers. The analysis included various geometrical parameters and boundary functions; the results obtained were compared with a single-layer holed structure.
[1] Vityaz P. A., Kovaliova S. A., Zornik V. I., Kukareko V.A., Grigorieva T. F., Gamzeleva T. V., Lyakhov N. Z., 2012, Structure and tribological properties of cu-sn alloys based on mechanical activated powders formed by electrocontact sintering, The Eleventh Israeli-Russian Bi-National Workshop 2012 ,The Optimization of the Composition, Structure and Properties of Metals, Oxides, Composites, Nano and Amorphous Materials 2012: 181-190.
[2] Aitharaju V., Aashat S., Kia H., Satyanarayana A., Bogert P., 2016, Progressive damage modeling of notched composites, NASA Technical Reports Server.
[3] Ershova A. Yu., Martirosov M. I., 2014, Experimental studies of polymer composites with fine filler (tensile-compression tests), Structural Mechanics of Engineering Structures and Structures 5: 61-69.
[4] Hu J., Zhang K., Cheng H., Liu P., Zou P., Song D., 2017, Stress analysis and damage evolution in individual plies of notched composite laminates subjected to in-plane loads, Chinese Journal of Aeronautics 30(1): 447-460.
[5] Pelekh B. L., Makhnitskii R. N., 1981, Approximate methods for solving problems on the concentration of stresses around apertures in Orthotropic disks made out of composite materials, Mechanics of Composite Materials 16(6): 690-693.
[6] Pobedrya B. E., Gorbachev V. I., 1984, Stress and strain concentration in composite materials, Mechanics of Composite Materials 20(2): 141-148.
[7] Annin B. D., Maksimenko V. N., 1989, Evaluation of the failure of plates made of composite materials with holes, Mechanics of Composite Materials 25(2): 216-222.
[8] Deilami Azodi H., Darabi R., 2017, Theoretical, numerical and experimental investigation on formability of Al3105-St14 two-layer sheet, Journal of Solid Mechanics 9(2): 434-444.
[9] Ghasemi A.R., Razavian I., 2012, Measurement of variation in fracture strength and calculation of stress concentration factor in composite laminates with circular hole, Journal of Solid Mechanics 4(3): 226-236.
[10] Jafari M., Bayati Chaleshtari M. H., Ardalani E., 2018, Determination of optimal parameters for finite plates with a quasi-square hole, Journal of Solid Mechanics 10(2): 300-314.
[11] Dastjerdi Sh., Yazdanparast L., 2018, New method for large deflection analysis of an elliptic plate weakened by an eccentric circular hole, Journal of Solid Mechanics 10(3): 561-570.
[12] Abolghasemi S., Eipakchi H.R., Shariati M., 2018, Investigation of pre-buckling stress effect on buckling load determination of finite rectangular plates with circular cutout, Journal of Solid Mechanics 10(4): 816-830.
[13] Fallahi H., Taheri-Behrooz F., Asadi A., 2020, Nonlinear mechanical response of polymer matrix composites: A review, Polymer Reviews 60(1): 42-85.
[14] Taheri-Behrooz F., Bakhshan H., 2018, Characteristic length determination of notched woven composites, Advanced Composite Materials 27(1): 67-83.
[15] Taheri-Behrooz F., Bakhshi N., 2017, Neuber’s rule accounting for the material nonlinearity influence on the stress concentration of the laminated composites, Journal of Reinforced Plastics and Composites 36 (3): 214-225.
[16] Bakhshi N., Taheri-Behrooz F., 2019, Length effect on the stress concentration factor of a perforated orthotropic composite plate under in-plane loading, International Journal of Composite Materials 1: 71-90.
[17] Singh K., Renu M., 2017, Displacement field due to a cylindrical inclusion in a thermoelastic half-space, Journal of Solid Mechanics 9(3): 445-455.
[18] Nikolaev A. G., Protsenko V. S., 2011, A Generalized Fourier Method in Spatial Problems of the Theory of Elasticity, Kharkov, National Aerospace University .
[19] Miroshnikov V. Yu., 2018, First basic elasticity theory problem in a half-space with several parallel round cylindrical cavities, Journal of Mechanical Engineering 21(2): 12-18.
[20] Protsenko V., Miroshnikov V., 2018, Investigating a problem from the theory of elasticity for a half-space with cylindrical cavities for which boundary conditions of contact type are assigned, Eastern-European Journal of Enterprise Technologies Applied mechanics 4(94): 43- 50.
[21] Miroshnikov V. Yu., 2019, The study of the second main problem of the theory of elasticity for a layer with a cylindrical cavity, Strength of Materials and Theory of Structures 102: 77-90.
[22] Miroshnikov V. Yu., 2020, Stress state of an elastic layer with a cylindrical cavity on a rigid foundation, International Applied Mechanics 56(3): 372-381.
[23] Miroshnikov V. Yu., Medvedeva A. V., Oleshkevich S. V., 2019, Determination of the stress state of the layer with a cylindrical elastic inclusion, Materials Science Forum 968: 413-420.
[24] Miroshnikov V., 2019, Investigation of the stress strain state of the layer with a longitudinal cylindrical thick-ealled tube and the displacements given at the boundaries of the layer, Journal of Mechanical Engineering 22(2): 44-52.
[25] Nikolaev A. G., Tanchik E. A., 2016, Stresses in an elastic cylinder with cylindrical cavities forming a hexagonal structure, Journal of Applied Mechanics and Technical Physics 57(6): 1141-1149.
[26] Nikolaev A. G., Tanchik E. A., 2016, Model of the stress state of a unidirectional composite with cylindrical fibers forming a tetragonal structure, Mechanics of Composite Materials 52(2): 177-188.
[27] Nikolaev A. G., Tanchik E. A., 2015, The first boundary-value problem of the elasticity theory for a cylinder with N cylindrical cavities, Numerical Analysis and Applications 8: 148-158.
[28] Nikolaev A. G., Tanchik E. A., 2016, Stresses in an infinite circular cylinder with four cylindrical cavities, Journal of Mathematical Sciences 217(3): 299-311.