Open Access

Effect of Trapezoidal Shapes on the Thermal Buckling Behaviour of Perforated Composite Plates


1. Shiau L.C, Kuo S.Y, Chen C.Y.: Thermal buckling behaviour of composite laminated plates. Composite Structures 92 (2010) 508–514.Search in Google Scholar

2. Mathew T.C, Singh G., Rao G.V.: Thermal buckling of cross-ply composite laminates. Computers & Structures 42 (2) (1992) 281-287.Search in Google Scholar

3. Manickam G., Bharath A., Das A.N., Chandra A, Barua P.: Thermal buckling behaviour of variable stiffness laminated composite plates. Materials Today Communications 16 (2018) 142-151.Search in Google Scholar

4. Biswal M., Sahu S., Asha A.: Vibration of composite cylindrical shallow shells subjected to hygrothermal loading-experimental and numerical results. Composites Part B: Engineering 98 (2016) 108-119.Search in Google Scholar

5. Palani G.S., Iyer N.R., Rao T.V.R.: An efficient finite element model for static and vibration analysis of eccentrically stiffened plates/shells. Computers & Structures 43 (4) (1992) 651-661.Search in Google Scholar

6. Panda H., Sahu S., Parhi P.: Hygrothermal effects on free vibration of delaminated woven fiber composite plates–Numerical and experimental results. Composite Structures 96 (2013) 502-513.Search in Google Scholar

7. Behera R.K., Sharma N., Parida S.K.: Finite element analysis of buckling, free vibration and flexure of clamped laminated composite plates in variable thermal environment. Advances in Mechanical Engineering (2020) 1151-1161.Search in Google Scholar

8. Jeyaraj P.: Buckling and free vibration behaviour of an isotropic plate under non-uniform thermal load. International Journal of Structural Stability and Dynamics 13 (3) (2013) 1250071.Search in Google Scholar

9. Sai Ram K.S, Sinha P.K.: Hygrothermal effects on the bending characteristics of laminated composite plate. International Journal of Computers and Structures 40 (4) (1991) 1009–1015.Search in Google Scholar

10. Twinkle C.M., Pitchaimani J., Rajamohan V.: Free vibration modes of rectangular plate under nonuniform heating: An experimental investigation. Structures 28 (2020) 1802-1817.Search in Google Scholar

11. Yang X., Fei Q., Wu S., Li Y.: Thermal buckling and dynamic characteristics of composite plates under pressure load, Journal of Mechanical Science and Technology 34 (8) (2020) 3117-3125.Search in Google Scholar

12. Abidaa M., Gehringan F., Marsb J., Viveta A., Dammakb F., Haddarc M.: Hygro-mechanical coupling and multiscale swelling coefficients assessment of flax yarns and flax/epoxy composites. Composites Part A 136 (2020) 105914.Search in Google Scholar

13. Gayen D., Roy T.: Hygro-thermal effects on stress analysis of tapered laminated composite Beam. International Journal of Composite Materials 3 (3) (2013) 46-55.Search in Google Scholar

14. Biswal M., Sahu S.K., Asha A.V., Namita Nanda.: Hygro-thermal effects on buckling of composite shell-experimental and FEM results. Steel and Composite Structures 22 (6) (2016) 1445-1463.Search in Google Scholar

15. Patel B.P., Ganapathi M, Makhecha D.P.: Hygro-thermal effects on the structural behaviour of thick composite laminates using higher-order theory. Composite Structures 56 (2002) 25–34.Search in Google Scholar

16. Sahin O.S.: Thermal buckling of hybrid angle-ply laminated composite plates with a hole. Composites Science and Technology 65 (2005) 1780–1790.Search in Google Scholar

17. Chikh A., Tounsi A., Hebali H., Mahmoud S.R.: Thermal buckling analysis of cross-ply laminated plates using a simplified HSDT. Smart Structures and Systems 19 (3) (2017) 289-297.Search in Google Scholar

18. Chandrashekhara K.: Thermal buckling of laminated plate using a shear flexible finite element. Finite Elements in Analysis and Design 12 (1992) 51-61.Search in Google Scholar

19. Sun L.X, Hsu T.R.: Thermal buckling of laminated composite plates with transverse shear deformation. Computers & Structures 36 (5) (1990) 883–9.Search in Google Scholar

20. Chockalingam S., Mathew T.C., Singh G., Rao G.V.: Critical temperatures of hybrid laminates using finite elements. Computers & Structures 43 (5) (1992) 995–8.Search in Google Scholar

21. Thangaratnam K.R., Ramachandran J.: Thermal buckling of composite laminated plates. Computers & Structures 32 (1989) 1117–24.Search in Google Scholar

22. Chen L.W., Lin P.D., Chen L.Y.: Thermal buckling behaviour of thick composite laminated plates under non-uniform temperature distribution. Computers & Structures 41 (1991) 637–45.Search in Google Scholar

23. Kallannavar V., Kumaran B., Kattimani S.C.: Effect of temperature and moisture on free vibration characteristics of skew laminated hybrid composite and sandwich plates. Thin–Walled Structures 157 (2020) 107113.Search in Google Scholar

24. Thai C.H., Kulasegaram S., Tran L.V., Nguyen-Xuan H.: Generalized shear deformation theory for functionally graded isotropic and sandwich plates based on isogeometric approach. Computers & Structures 141 (2014) 94-112.Search in Google Scholar

25. Nguyen T.N, Thai C.H., Nguyen-Xuan H.: On the general framework of high order shear deformation theories for laminated composite plate structures: A novel unified approach. International Journal of Mechanical Sciences 110 (2016) 242-255.Search in Google Scholar

26. Nguyen T.N., Ngo T.D., Nguyen-Xuan H.: A novel three-variable shear deformation plate formulation: Theory and Isogeometric implementation. Computer Methods in Applied Mechanics and Engineering 326 (2017) 376–401.Search in Google Scholar

27. Bathe K.J.: 2014. Finite Elements Procedures. Second Edi. Prentice Hall, Pearson Education, Inc.Search in Google Scholar

28. Maharudra, B. Arya, Rajanna T.: Effect of ply-orientation and boundary conditions on the vibrational characteristics of laminated composite plates using HOSDT, Materials Today: Proceedings. 20 (2020) 134–139.Search in Google Scholar

29. Rajanna T., Banerjee S., Desai Y.M., Prabhakara D. L.: Effects of partial edge loading and fibre configuration on vibration and buckling characteristics of stiffened composite plates. Latin American Journal of Solids and Structures 13 (2016) 854-879.Search in Google Scholar

30. Muddappa P.P.Y., Rajanna T., Giridhara G.: Effects of different inter-laminar hybridization and localized edge loads on the vibration and buckling behaviour of fiber metal composite laminates. Composites Part C 4 (2021) 100084.Search in Google Scholar

31. Subash Chandra K.S., Rajanna T., Venkata Rao K.: A parametric study on the effect of elliptical cutouts for buckling behaviour of composite plates under non-uniform edge loads. Latin American Journal of Solids and Structures 17 (2020) 1-15.Search in Google Scholar

Publication timeframe:
4 times per year
Journal Subjects:
Materials Sciences, Functional and Smart Materials