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Effect of Aspect Ratio, Degree of Orthotropy and Coefficient of Thermal Expansion on Transverse Displacement of Laminated Beams

S. Kulkarni

S. Kulkarni

Symbiosis Institute of Technology, Symbiosis International (Deemed University)India
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Kulkarni, S.
  
19 mai 2025
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Publié en ligne: 19 mai 2025
Pages: 123 - 130
Reçu: 27 oct. 2024
Accepté: 09 janv. 2025
DOI: https://doi.org/10.2478/jaes-2025-0015
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© 2025 S. Kulkarni, published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Akbas, S. D., 2018. Nonlinear thermal displacements of laminated composite beams. Coupled System Mechanics, 7 (6), pp. 691-705. https://doi.org/10.12989/csm.2018.7.6.691. Search in Google Scholar

Avhad, P. V., Sayyad, A. S. 2022. On the deformation of laminated composite and sandwich beams. Curved and Layer, Struct 9, pp. 1-12. Search in Google Scholar

Bouazza, M., Benseddig, N., Zankour, A.M. 2018. Thermal buckling analysis of laminated composite beams using hyperbolic refined shear deformation theory. J Therm Stress 42, pp. 332-340. Search in Google Scholar

Ghugal, Y. M., Kulkarni, S. K. 2013. Flexural analysis of cross play laminated plates subjected to nonlinear thermal and mechanical loadings. Acta Mechanica. 224, pp. 675-690. Search in Google Scholar

Ghugal, Y. M., Kulkarni, S. K., Borate, R. D. 2023. Flexural response of cross ply laminated beams subjected to combined thermal and transverse mechanical loads. Acta Mechanica. 234, pp. 3725-3735. Search in Google Scholar

Ghugal, Y. M., Ruoccc, E., Gajbhiye, P. D., Bhaiya, V., Yelve, N. P. 2023. Stress analysis of laminated and sandwich beams subjected to concentrated load by using quasi-two-dimensional theory. Int. J. Computational Materials Science and Engineering DOI: 10.1142/S204768412350046X. Search in Google Scholar

Ghumare, S. M., Sayyad. A. S. 2017. A new fifth order shear and normal deformation theory for static bending and elastic buckling of P-FGM beams. Latin American J. Solid and Struct 14, pp. 1893-1911. Search in Google Scholar

Hai, Q., Ding, Z., Wei-qing, L., Hai, F. 2015. Elasticity solution of laminated beams subjected to thermo-loads. J. Cent. South Univ. 22, pp. 2297-2305. Search in Google Scholar

Khdeir, A. A. 2001. Thermal buckling of cross ply laminated composite beams. Acta Mechanica. 149, pp. 201-213. Search in Google Scholar

Kulkarni, S. K., Ghugal, Y. M. 2015. Effect of degree of orthotropy on transverse deflection of composites under thermal load. Advances in Structural Engineering. DOI 10.1007/978-81-322-2190-6_15. Search in Google Scholar

Naik, N. S., Sayyad, A. S. 2020. 1 D Thermal analysis of laminated composite and sandwich plates using a new fifth order shear and normal deformation theory. Materials Today Proceedings. 21, pp. 1084-1088. Search in Google Scholar

Naik, N. S., Sayyad, A. S., 2021. Higher order displacement model for cylindrical bending of laminated and sandwich plates subjected to environmental loads. Mechanics of Advanced Composite Structures, 8 (1), pp. 185-201. Search in Google Scholar

Patel, M., Daynes, S., Wang, C. H., 2024. The influence of orthotropy and taper angle on the compressive strength of composite laminates with scarfed holes. Advanced Material Research, 891. Search in Google Scholar

Qian, H., Qiu, Y., Lu, C., Yang, Y., Sha, X. 2022. Thermal analysis for clamped laminated beams with non-uniform temperature boundary conditions. Thin Walled Structures 179, 109693 DOI: https://doi.org/10.1016/j.tws.2022.109693. Search in Google Scholar

Sayyad, A. S., Avhad, P. V. 2022. Higher order model for the thermal analysis of laminated composite, sandwich and functionally graded curved beams. J. Thermal Stresses. 45, pp. 382-400. https://doi.org/10.1080/01495739.2022.2050476. Search in Google Scholar

Sayyad, A. S., Ghugal, Y. M., Naik, N. S. 2015. Bending analysis of laminated composite and sandwich beams according to refined trigonometric beam theory. Curved and Layer, Struct 2, pp. 279-289. Search in Google Scholar

Tylikowski, A., Hetnarski, R. B., 1996. Thermally induced Instability of laminated beams and plates. Journal of Applied Mechanics, 63 (4), pp. 884-890. Search in Google Scholar

Vidal, P., Polit, O., 2006. A thermomechanical finite element for the analysis of rectangular laminated beams. Finite Elements in Analysis and Design, 42 (10), pp. 868-883 Doi: 10.1016/j.finel.2006.01.005. Search in Google Scholar

Vidal, P., Polit, O., 2009. A refined sine-based finite element with transverse normal deformation for analysis of laminated beams under thermomechanical loads. Journal of Mechanics of Materials and Structures, 4 (6), pp. 1127-1155 http://dx.doi.org/10.2140/jomms.2009.4.1127. Search in Google Scholar

Vilar, M. M. S., Masjedi, P. K., Hadjiloizi, D. A., Weaver, P. M., 2023. Analytical interlaminar stresses of composite laminated beams with orthotropic tapered layers. Composite Structures, 319 (1), https://doi.org/10.1016/j.compstruct.2023.117063. Search in Google Scholar

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