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Mechanics of Composite Materials

Erschienen in:

12.05.2018

First-Ply-Failure Performance of Composite Clamped Spherical Shells

verfasst von: A. Ghosh, D. Chakravorty

Erschienen in: Mechanics of Composite Materials | Ausgabe 2/2018

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Abstract

The failure aspects of composites are available for plates, but studies of the literature on shells unveils that similar reports on them are very limited in number. The aim of this work was to investigate the first-ply-failure of industrially and aesthetically important spherical shells under uniform loadings. Apart from solving benchmark problems, numerical experiments were carried out with different variations of their parameters to obtain the first-ply-failure stresses by using the finite-element method. The load was increased in steps, and the lamina strains and stresses were put into well-established failure criteria to evaluate their first-ply-failure stress, the failed ply, the point of initiation of failure, and failure modes and tendencies. The results obtained are analyzed to extract the points of engineering significance.

Vorheriger Artikel Elasticity Theory Solution of the Problem on Plane Bending of a Narrow Layered Cantilever Beam by Loads at Its Free End

Nächster Artikel Numerical Analysis of a Masonry Panel Reinforced with Pultruded FRP Frames

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Y. N. S. Reddy, C. M. D. Moorthy, and J. N. Reddy, “Nonlinear progressive failure analysis of laminated composite plates,” Int. J. Nonlinear Mech., 30, No. 5, 629-649 (1995).CrossRef

S. B. Singh and A. Kumar, “Postbuckling response and failure of symmetric laminates under in-plane shear,” Compos. Sci. Tech., 58, 1949-1960 (1998).CrossRef

G. S. Padhi, R. A. Shenoi, S. S. J. Moy, and G. L. Hawkins, “Progressive failure and ultimate collapse of laminated composite plates in bending,” Compos. Struct., 40, No. 3-4, 277-291 (1998).CrossRef

P. Pal and C. Ray, “Progressive failure analysis of laminated composite plates by finite element method,” J. Reinf. Plast. Compos., 21, No. 16, 1505-1513 (2002).CrossRef

B. G. Prusty, “Progressive failure analysis of laminated unstiffened and stiffened composite panels,” J. Reinf. Plast. Compos., 24, No. 6, 633-642 (2005).CrossRef

G. Kelly and S. Hallstrom, “Strength and failure mechanisms of composite laminates subject to localised transverse loading,” Compos. Struct., 69, 301-314 (2005).CrossRef

G. Akhras and W. C. Li, “Progressive failure analysis of thick composite plates using the spline finite strip method,” Compos. Struct., 79, 34-43 (2007).CrossRef

R. Ganesan and D. Y. Liu, “Progressive failure and post-buckling response of tapered composite plates under uni-axial compression,” Compos. Struct., 82, 159-176 (2008).CrossRef

M. Kober and A. Kuhhorn, “Comparison of different failure criteria for fiber-reinforced plastics in terms of fracture curves for arbitrary stress combinations,” Compos. Sci. Techol., 72, 1941-1951 (2012).CrossRef

10.

R. H. Lopez, M. A. Luersen, and E. S. Cursi, “Optimization of laminated composites considering different failure criteria,” Composites: Part B, 40, 731-740 (2009).CrossRef

11.

P. D. Soden, A. S. Kaddour, and M. J. Hinton, “Recommendations for designers and researchers resulting from the world-wide failure exercise,” Compos. Sci. Technol., 64, 589-604 (2004).CrossRef

12.

C. Ray and S. K. Satsangi, “Laminated stiffened plate – a first ply failure analysis,” J. Reinf. Plast. Compos., 18, No. 12, 1061-1076 (1999).CrossRef

13.

Y. V. S. Kumar and A. Srivastava, “First ply failure analysis of laminated stiffened plates,” Compos. Struct., 60, No. 3, 307-315 (2003).CrossRef

14.

R. R. Chang and T. H. Chiang, “Theoretical and experimental predictions of first ply failure of a laminated composite elevated floor plate,” Proc. Inst. Mech. Engg., Part E: J. Process Mech. Eng. 224, No. 4, 233-245 (2010).CrossRef

15.

X. Zhang, S. Wang, and Y. Zhang, “Stress and failure analysis of laminated composites based on layerwise B – spline finite strip method,” Compos. Struct. 92, 3020-3030 (2010).CrossRef

16.

B. Ellul, D. Camilleri, and C. Betts, “A progressive failure analysis applied to fiber reinforced composite plates subject to out-of- plane bending,” J. Mech. Compos. Mater., 49, No. 6, 605-620 (2014).CrossRef

17.

S. Gohari, S. Sharifi, Z. Vrcelj, and M. Y. Yahya, “First ply failure prediction of an unsymmetrical laminated ellipsoidal woven GFRP composite shell with incorporated surface-bounded sensors and internally pressurized,” Composites: Part B, 77, 502-518 (2015).CrossRef

18.

S. Adali and I. U. Cagdas, “Failure analysis of curved composite panels based on first-ply and buckling failures,” Proc. Engg., 10, 1591-1596 (2011).CrossRef

19.

K. Bakshi and D. Chakravorty, “Geometrically linear and nonlinear first-ply failure loads of composite cylindrical shells,” J. Engg. Mech. - ASCE, 140, No. 12 (2014).

20.

K. Bakshi and D. Chakravorty, “First ply failure study of thin composite conoidal shells subjected to uniformly distributed loading,” Thin Walled Struct., 76, 1-7 (2014).CrossRef

21.

K. Bakshi and D. Chakravorty, “First ply failure loads of composite conoidal shell roofs with varying lamination,” Mech. Adv. Mat. Struct., 12, 978-987 (2015).CrossRef

22.

D. H. Bich and N. X. Nguyen, “Nonlinear vibration of functionally graded circular cylindrical shells based on improved Donnell equations”, J. Sound Vibr., 331, 5488 – 5501 (2012).CrossRef

23.

G. Jin, T. Ye, X. Ma, Y. Chen, Z. Su, and X. Xie, “A unified approach for the vibration analysis of moderately thick composite laminated cylindrical shells with arbitrary boundary conditions,” Int. J. Mech. Sci., 75, 357-376 (2013).CrossRef

24.

A. H. Khan and B. P. Patel, “Nonlinear forced vibration response of bimodular laminated composite plates,” Compos. Struct., 108, 524-537 (2014).CrossRef

25.

S. Ahmed and L. J. Sluys, “Implicit/explicit elasto dynamics of isotropic and anisotropic plates and shells using a solidlike shell element,” Euro. J. Mech. A/Solids, 43, 118-132 (2014).CrossRef

26.

P. Ribeiro, “Forced large amplitude periodic vibrations of cylindrical shallow shells”, Fin. Elem. Ana. Des., 44, 657-674 (2008).CrossRef

27.

N. Nanda and J. N. Bandyopadhyay, “Nonlinear free vibration analysis of laminated composite cylindrical shells with cut outs,” J. Reinf. Plast. Compos., 26, No. 14, 1413-1427 (2007).CrossRef

28.

N. Nanda and J. N. Bandyopadhyay, “Nonlinear transient response of laminated composite shells,” J. Engg. Mech., 134, No. 11, 983-990 (2008).CrossRef

29.

N. Nanda and J. N. Bandyopadhyay, “Geometrically nonlinear transient analysis of laminated composite shells using the finite element method,” J. Sound Vibr., 325, 174-185 (2009).CrossRef

30.

D. R. J. Owen and E. Hinton, Finite Elements in Plasticity: Theory and Practice, Ch. 6, Pineridge Press Limited, U. K., (1980), pp. 157-214.

31.

N. Nanda, Nonlinear Dynamic Analysis of Laminated Composite Shells, Doct. Dis., Indian Institute of Technology, Kharagpur, (2009).

32.

J. N. Reddy, “Exact solutions of moderately thick laminated shells,” J. Engg. Mech.-ASCE, 110, No. 5, 794-809 (1984).CrossRef

33.

T. Y. Kam, H. F. Sher, T. N. Chao and R. R. Chang, “Predictions of deflection and first-ply failure load of thin laminated composite plates via the finite element approach,” Int. J. Sol. Struct., 33, No. 3, 375-398 (1996).CrossRef

34.

S. R. Soni, “A comparative study of failure envelops in composite laminates,” J. Reinf. Plast. Compos., 2, 34-42 (1983).CrossRef

Titel: First-Ply-Failure Performance of Composite Clamped Spherical Shells
verfasst von: A. Ghosh
D. Chakravorty
Publikationsdatum: 12.05.2018
Verlag: Springer US
Erschienen in: Mechanics of Composite Materials / Ausgabe 2/2018
Print ISSN: 0191-5665
Elektronische ISSN: 1573-8922
DOI: https://doi.org/10.1007/s11029-018-9731-y

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