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Research Article
Stress analysis of U-type layered sandwich beams
S M Shiyekar1
Yogesh Jadhav2
1Professor, Department of Civil Engineering, D Y Patil College of Engineering, Akurdi, Pune, Maharashtra, India. 2Former PG Student of Rajarambapu Institute of Technology, Rajaramnagar, Sangli, Maharashtra, India.
Published Online: July-August 2023
Pages: 11-17
Cite this article
↗ https://www.doi.org/10.59256/ijsreat.20230304003
References
1. Kant, T. (2018). "Review of analysis and design of sandwich panels." Composite Structures, 201, 106-117.
2. Shen, H. S., & Han, X. (2015). "Static and free vibration analyses of sandwich beams with functionally graded material faces using the
finite element method." Composite Structures, 131, 56-70.
3. Wang, B., & Wang, X. (2013). "Finite element analysis of sandwich panels with composite face and paper core under impact loading."
Composite Structures, 100, 405-414.
4. Aydogdu, M., & Seker, U. (2012). "Dynamic analysis of functionally graded sandwich beams using finite element method." Composite
Structures, 94(7), 2225-2235.
5. Triantafyllou, S. P., & Bergan, P. G. (2001). "Vibration and damping of sandwich beams." Composite Structures, 52(4), 441-450.
6. Mead, D. J., & Markus, S. (1975). "The forced vibration of a three-layer, damped sandwich beam." Journal of Sound and Vibration,
41(4), 461-474.
7. Mir, M. A., & Cardew-Hall, M. J. (2009). "Finite element analysis of sandwich beams with composite face-sheets subjected to combined
bending and impact." Composite Structures, 87(3), 286-294.
8. Carrera, E., & Petrolo, M. (2017). "A higher-order finite element model for the analysis of sandwich structures." Composite Structures,
160, 1320-1334.
9. Goudarzi, A. M., & Zenkert, D. (2007). "Effect of core shear compliance on the stress distribution in sandwich beams: A finite element
study." Composite Structures, 80(4), 525-533.
10. Carrera, E. (2003). "Simplified finite element models for the buckling and free vibration analysis of composite sandwich beams."
Composite Structures, 62(4), 451-457.
11. Reddy, J. N., & Phan, N. D. (1985). "Stability and vibration of isotropic, orthotropic and laminated plates according to a higher-order
shear deformation theory." Journal of Sound and Vibration, 98(2), 157-170.
12. Librescu, L. (1979). "On the vibration and buckling of symmetric sandwich and orthotropic plates." AIAA Journal, 17(1), 1-7.
13. Varelis, G. E., & Tsamasphyros, G. J. (2002). "Finite element analysis of sandwich beams with functionally graded core." International
Journal of Solids and Structures, 39(2), 299-317.
14. Gurdal, Z., & Vegter, G. (1995). "Design and optimization of composite sandwich beams for maximum fundamental frequency." AIAA
Journal, 33(4), 774-782.
15. Mead, D. J. (1984). "Free vibration of damped sandwich beams." Journal of Sound and Vibration, 96(1), 69-83.
16. Shu, D., & Li, Q. (2011). "Finite element analysis of sandwich panels with honeycomb core subjected to low-velocity impact." Composite
Structures, 93(4), 1353-1360.
17. Ochoa, O. O., & Jensen, H. M. (1999). "Damping of sandwich beams with flexible core." Journal of Sound and Vibration, 220(2), 299-
317.
18. Bressan, G., & Carrera, E. (2007). "Finite element model for the analysis of functionally graded sandwich beams." Composite
Structures, 80(1), 69-81.
19. Wünsch, O., & Bischoff, M. (2007). "A finite element approach for the analysis of three-dimensional sandwich panels." Computers &
Structures, 85(1-2), 54-62.
20. Chu, J. F., & Bisch, P. (1984). "The vibration and stability of simply supported orthotropic sandwich plates under sinusoidal in-plane
loading." International Journal of Solids and Structures, 20(6), 567-580.
21. Viola, E., & Hinton, M. J. (2002). "Finite element analysis of sandwich beams using refined theories." Composite Structures, 57(1-4),
465-473.
22. Liew, K. M., & Kitipornchai, S. (1997). "Buckling analysis of sandwich beams by the spline finite strip method." Journal of Sandwich
Structures & Materials, 3(3), 241-259.
23. Shen, H. S., & Han, X. (2012). "Dynamic analysis of functionally graded sandwich beams with viscoelastic damping layers." Composite
Structures, 94(2), 476-487.
24. Batsell, S. G., & Bert, C. W. (1980). "Finite element analysis of elastic sandwich beams." Computers & Structures, 12(5), 513-521.
25. Shen, H. S., & Han, X. (2014). "A unified higher-order finite element model for static and free vibration analyses of sandwich beams."
Composite Structures, 108, 94-106.
26. ANSYS Mechanical APDL, Student Version
2. Shen, H. S., & Han, X. (2015). "Static and free vibration analyses of sandwich beams with functionally graded material faces using the
finite element method." Composite Structures, 131, 56-70.
3. Wang, B., & Wang, X. (2013). "Finite element analysis of sandwich panels with composite face and paper core under impact loading."
Composite Structures, 100, 405-414.
4. Aydogdu, M., & Seker, U. (2012). "Dynamic analysis of functionally graded sandwich beams using finite element method." Composite
Structures, 94(7), 2225-2235.
5. Triantafyllou, S. P., & Bergan, P. G. (2001). "Vibration and damping of sandwich beams." Composite Structures, 52(4), 441-450.
6. Mead, D. J., & Markus, S. (1975). "The forced vibration of a three-layer, damped sandwich beam." Journal of Sound and Vibration,
41(4), 461-474.
7. Mir, M. A., & Cardew-Hall, M. J. (2009). "Finite element analysis of sandwich beams with composite face-sheets subjected to combined
bending and impact." Composite Structures, 87(3), 286-294.
8. Carrera, E., & Petrolo, M. (2017). "A higher-order finite element model for the analysis of sandwich structures." Composite Structures,
160, 1320-1334.
9. Goudarzi, A. M., & Zenkert, D. (2007). "Effect of core shear compliance on the stress distribution in sandwich beams: A finite element
study." Composite Structures, 80(4), 525-533.
10. Carrera, E. (2003). "Simplified finite element models for the buckling and free vibration analysis of composite sandwich beams."
Composite Structures, 62(4), 451-457.
11. Reddy, J. N., & Phan, N. D. (1985). "Stability and vibration of isotropic, orthotropic and laminated plates according to a higher-order
shear deformation theory." Journal of Sound and Vibration, 98(2), 157-170.
12. Librescu, L. (1979). "On the vibration and buckling of symmetric sandwich and orthotropic plates." AIAA Journal, 17(1), 1-7.
13. Varelis, G. E., & Tsamasphyros, G. J. (2002). "Finite element analysis of sandwich beams with functionally graded core." International
Journal of Solids and Structures, 39(2), 299-317.
14. Gurdal, Z., & Vegter, G. (1995). "Design and optimization of composite sandwich beams for maximum fundamental frequency." AIAA
Journal, 33(4), 774-782.
15. Mead, D. J. (1984). "Free vibration of damped sandwich beams." Journal of Sound and Vibration, 96(1), 69-83.
16. Shu, D., & Li, Q. (2011). "Finite element analysis of sandwich panels with honeycomb core subjected to low-velocity impact." Composite
Structures, 93(4), 1353-1360.
17. Ochoa, O. O., & Jensen, H. M. (1999). "Damping of sandwich beams with flexible core." Journal of Sound and Vibration, 220(2), 299-
317.
18. Bressan, G., & Carrera, E. (2007). "Finite element model for the analysis of functionally graded sandwich beams." Composite
Structures, 80(1), 69-81.
19. Wünsch, O., & Bischoff, M. (2007). "A finite element approach for the analysis of three-dimensional sandwich panels." Computers &
Structures, 85(1-2), 54-62.
20. Chu, J. F., & Bisch, P. (1984). "The vibration and stability of simply supported orthotropic sandwich plates under sinusoidal in-plane
loading." International Journal of Solids and Structures, 20(6), 567-580.
21. Viola, E., & Hinton, M. J. (2002). "Finite element analysis of sandwich beams using refined theories." Composite Structures, 57(1-4),
465-473.
22. Liew, K. M., & Kitipornchai, S. (1997). "Buckling analysis of sandwich beams by the spline finite strip method." Journal of Sandwich
Structures & Materials, 3(3), 241-259.
23. Shen, H. S., & Han, X. (2012). "Dynamic analysis of functionally graded sandwich beams with viscoelastic damping layers." Composite
Structures, 94(2), 476-487.
24. Batsell, S. G., & Bert, C. W. (1980). "Finite element analysis of elastic sandwich beams." Computers & Structures, 12(5), 513-521.
25. Shen, H. S., & Han, X. (2014). "A unified higher-order finite element model for static and free vibration analyses of sandwich beams."
Composite Structures, 108, 94-106.
26. ANSYS Mechanical APDL, Student Version
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