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Continuum Mechanics and Thermodynamics

Erschienen in:

11.05.2021 | Original Article

Dynamic thermomechanical analysis on composite sandwich plates with damage

verfasst von: D. H. Li, S. Ma

Erschienen in: Continuum Mechanics and Thermodynamics | Ausgabe 5/2021

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Abstract

The dynamic thermomechanical analysis on composite sandwich plates with damage is investigated in this paper. A thermomechanical extended layerwise/soild-element (TELW/SE) method is developed for sandwich plates. In the TELW/SE method, the thermomechanical extended layerwise theory is used to model the behavior of the laminated composite facesheets, while the thermomechanical eight-node solid element is employed to discretize the cores. The total governing equations are assembled by using the interface conditions, to ensure the compatibility of displacements and temperature, and the equilibrium of internal force. In the numerical examples, the dynamic thermomechanical analysis is carried out for the sandwich plates with one or two layer honeycombs cores, taking the delaminations, transverse crack and debonding at core/facesheets interface into account. The proposed method is validated by using three-dimensional elastic models developed in commercial finite element softwares Comsol and Abaqus, and good agreement is achieved. Several typical damage in composite sandwich plates can be described finely in the proposed method.

Vorheriger Artikel A model for the second strain gradient continua reinforced with extensible fibers in plane elastostatics

Nächster Artikel Surface phenomena of gradient materials

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Alibeigloo, A.: Three-dimensional thermo-elasticity solution of sandwich cylindrical panel with functionally graded core. Compos. Struct. 107(1), 458–468 (2014)CrossRef

Alibeigloo, A.: Three dimensional coupled thermoelasticity solution of sandwich plate with FGM core under thermal shock. Compos. Struct. 177, S0263822317318275 (2017)CrossRef

Aman, G., Chalak, H.D.: A review on analysis of laminated composite and sandwich structures under hygrothermal conditions. Thin-Walled Struct. 142(sep.), 205–226 (2019)

Benjeddou, A., Andrianarison, O.: A heat mixed variational theorem for thermoelastic multilayered composites. Comput. Struct. 84(19), 1247–1255 (2006)MathSciNetCrossRef

Carrera, E.: Developments, ideas, and evaluations based upon Reissner’s mixed variational theorem in the modeling of multilayered plates and shells. Appl. Mech. Rev. 54(4), 301–329 (2001)ADSCrossRef

Carrera, E.: Theories and finite elements for multilayered, anisotropic, composite plates and shells. Arch. Comput. Methods Eng. 9(2), 87–140 (2002)MathSciNetMATHCrossRef

Castro, L.M.S., Ferreira, A.J.M., Bertoluzza, S., Batra, R.C., Reddy, J.N.: A wavelet collocation method for the static analysis of sandwich plates using a layerwise theory. Compos. Struct. 92(8), 1786–1792 (2010)CrossRef

Cetkovic, M.: Thermo-mechanical bending of laminated composite and sandwich plates using layerwise displacement model. Compos. Struct. 125, 388–399 (2015)CrossRef

Ferreira, A.J.M., Fasshauer, G.E., Batra, R.C., Rodrigues, J.D.: Static deformations and vibration analysis of composite and sandwich plates using a layerwise theory and RBF-PS discretizations with optimal shape parameter. Compos. Struct. 86(4), 328–343 (2008)CrossRef

10.

Ferreira, A.J.M., Roque, C.M.C., Jorge, R.M.N., Kansa, E.J.: Static deformations and vibration analysis of composite and sandwich plates using a layerwise theory and multiquadrics discretizations. Eng. Anal. Bound. Elem. 29(12), 1104–1114 (2005)MATHCrossRef

11.

Frostig, Y., Thomsen, O.T.: Non-linear thermo-mechanical behaviour of delaminated curved sandwich panels with a compliant core. Int. J. Solids Struct. 48(14), 2218–2237 (2011)CrossRef

12.

Gao, S., Wang, B.Z.: Finite element analysis of double honeycomb cardboard by ANSYS. Mech. Eng. Autom. 6(69–70), 69–70 (2012)

13.

Han, J.W., Kim, J.S., Cho, M.: Improved thermo-mechanical stress prediction of laminated composite and sandwich plates using enhanced LCW theory. Eur. J. Mech. A. Solids 66, S0997753816301280 (2017)MathSciNetMATHCrossRef

14.

Han, J.W., Kim, J.S., Cho, M.: New enhanced first-order shear deformation theory for thermo-mechanical analysis of laminated composite and sandwich plates. Compos. B Eng. 116, 422–450 (2017)CrossRef

15.

Howard, J.R.: Development of the mariner mars 1971 meteoroid shield. J. Spacecraft Rockets 7, 69–72 (1970)ADSCrossRef

16.

Hu, H., Belouettar, S., Potier-Ferry, M., Daya, E.M.: Review and assessment of various theories for modeling sandwich composites. Compos. Struct. 84(3), 282–292 (2008)CrossRef

17.

Lambert, M., Schafer, F.K., Geyer, T.: Impact damage on sandwich panels and multi-layer insulation. Int. J. Impact Eng. 26, 369–380 (2001)CrossRef

18.

Lathrop, B.L., Sennett, R.E.: Effects of hypervelocity impact on honeycomb structures. J. Spacecraft Rockets 5(12), 1496–1497 (2012)ADS

19.

Li, D., Liu, Y., Zhang, X.: A layerwise/solid-element method of the linear static and free vibration analysis for the composite sandwich plates. Compos. B Eng. 52(52), 187–198 (2013)CrossRef

20.

Li, D., Zhang, F.: Full extended layerwise method for the simulation of laminated composite plates and shells. Comput. Struct. 187, 101–113 (2017)CrossRef

21.

Li, D.H.: Delamination and transverse crack growth prediction for laminated composite plates and shells. Comput. Struct. 177, 39–55 (2016)ADSCrossRef

22.

Li, D.H., Fish, J.: Thermomechanical extended layerwise method for laminated composite plates with multiple delaminations and transverse cracks. Compos. Struct. 185(1),665-683 (2018)

23.

Li, D.H., Liu, Y., Zhang, X.: An extended layerwise method for composite laminated beams with multiple delaminations and matrix cracks. Int. J. Numer. Methods Eng. 101(6), 407–434 (2015)MathSciNetMATHCrossRef

24.

Li, D.H., Wang, R.P., Qian, R.L., Liu, Y., Qing, G.H.: Static response and free vibration analysis of the composite sandwich structures with multi-layer cores. Int. J. Mech. Sci. 111–112, 101–115 (2016)CrossRef

25.

Li, D.H., Zhang, F., Xu, J.X.: Incompatible extended layerwise method for laminated composite shells. Int. J. Mech. Sci. 119, 243–252 (2016)CrossRef

26.

Li, D.H., Zhang, X., Sze, K.Y., Liu, Y.: Extended layerwise method for laminated composite plates with multiple delaminations and transverse cracks. Comput. Mech. 58(4), 657–679 (2016)MathSciNetMATHCrossRef

27.

Lu, X., Yang, J.Y., Xu, D., Wu, Y.G., Li, D.H.: Extended layerwise/solid-element method of composite sandwich plates with damage. Mech. Adv. Mater. Struct. 1, 1–14 (2018)

28.

Luo, C., Lua, J., Desjardin, P.E.: Thermo-mechanical damage modeling of polymer matrix sandwich composites in fire. Compos. A 43(5), 814–821 (2012)CrossRef

29.

Mantari, J.L., Oktem, A.S., Soares, C.G.: A new trigonometric layerwise shear deformation theory for the finite element analysis of laminated composite and sandwich plates. Comput. Struct. 94–95(3), 45–53 (2012)CrossRef

30.

Maturi, D.A., Ferreira, A.J.M., Zenkour, A.M., Mashat, D.S.: Analysis of sandwich plates with a new layerwise formulation. Compos. B Eng. 56(1), 484–489 (2014)CrossRef

31.

Moreira, R.A.S., Rodrigues, J.D.: A layerwise model for thin soft core sandwich plates. Comput. Struct. 84(19), 1256–1263 (2006)CrossRef

32.

Noor, A.K., Burton, W.S., Bert, C.W.: Computational models for sandwich panels and shells. Appl. Mech. Rev. 49(3), 155 (1996)ADSCrossRef

33.

Pilipchuk, V.N., Berdichevsky, V.L., Ibrahim, R.A.: Thermo-mechanical coupling in cylindrical bending of sandwich plates. Compos. Struct. 92(11), 2632–2640 (2010)CrossRef

34.

Plagianakos, T.S., Saravanos, D.A.: High-order layerwise mechanics and finite element for the damped dynamic characteristics of sandwich composite beams. Int. J. Solids Struct. 41(24–25), 6853–6871 (2004)

35.

Pradhan, S.C., Murmu, T.: Thermo-mechanical vibration of FGM sandwich beam under variable elastic foundations using differential quadrature method. J. Sound Vib. 321(1), 342–362 (2009)ADSCrossRef

36.

Rabczuk, T., Kim, J.Y., Samaniego, E., Belytschko, T.: Homogenization of sandwich structures. Int. J. Numer. Methods Eng. 61(7), 1009–1027 (2004)MATHCrossRef

37.

Reddy, J.N.: Mechanics of Laminated Composite Plates and Shells: Theory and Analysis. CRC Press, London (2004)

38.

Reddy, J.N., Savoia, M.: Layer-wise shell theory for postbuckling of laminated circular cylindrical shells. AIAA J. 30(8), 2148–2154 (1992)ADSMATHCrossRef

39.

Reissner, E.: Finite deflections of sandwich plates. J. Aeronaut. Sci. 15, 435–40 (1948)MathSciNetCrossRef

40.

Reissner, E.: Note on a nontrivial simple example of higher-order one-dimensional beam theory. Trans. ASME Ser. E. J. Appl. Mech. 46, 337–340 (1979)

41.

Roque, C.M.C., Ferreira, A.J.M., Jorge, R.M.N.: Modelling of composite and sandwich plates by a trigonometric layerwise theory and multiquadrics. Compos. B Eng. 36(8), 559–572 (2005)CrossRef

42.

Santiuste, C., Thomsen, O.T., Frostig, Y.: Thermo-mechanical load interactions in foam cored axi-symmetric sandwich circular plates-high-order and FE models. Compos. Struct. 93(2), 369–376 (2011)CrossRef

43.

Schaefer, F., Ryan, S., Riedel, W.: Numerical simulation of hypervelocity impact on cfrp/al hc sp spacecraft structures causing penetration and fragment ejection. Int. J. Impact Eng 33, 703–712 (2006)CrossRef

44.

Shariyat, M.: A generalized global-local high-order theory for bending and vibration analyses of sandwich plates subjected to thermo-mechanical loads. Int. J. Mech. Sci. 52(3), 495–514 (2010)MathSciNetCrossRef

45.

Shariyat, M.: A generalized high-order global-local plate theory for nonlinear bending and buckling analyses of imperfect sandwich plates subjected to thermo-mechanical loads. Compos. Struct. 92(1), 130–143 (2010)CrossRef

46.

Shariyat, M.: Non-linear dynamic thermo-mechanical buckling analysis of the imperfect laminated and sandwich cylindrical shells based on a global-local theory inherently suitable for non-linear analyses. Int. J. Non-Linear Mech. 46(1), 253–271 (2011)ADSCrossRef

47.

Taylor, E.A., Glanville, J.P., Clegg, R.A., Turner, R.G.: Hypervelocity impact on spacecraft honeycomb: hydrocode simulation and damage laws. Int. J. Impact Eng 29, 691–702 (2003)CrossRef

48.

Taylor, E.A., Herbert, M.K., Vaughan, B.A.M., Nnell, J.A.M.: Hypervelocity impact on carbon fibre reinforced plastic/aluminium honeycomb: Comparison with whipple bumper shields. Int. J. Impact Eng. 23(1), 883–893 (1999)CrossRef

49.

Thai, C.H., Ferreira, A.J.M., Carrera, E., Nguyen-Xuan, H.: Isogeometric analysis of laminated composite and sandwich plates using a layerwise deformation theory. Compos. Struct. 24(16), 1927–1950 (2013)

50.

Wu, Y., Song, H., Huang, C.: Nonlinear thermo-structural behavior of sandwich panels with truss cores under through-thickness gradient temperature field. Theor. Appl. Mech. Lett. 8(3), 184–192 (2018)CrossRef

51.

YoshihikoArao, J.K., Utsunomiya, S., Kawada, H.: Analysis of thermal deformation on a honeycomb sandwich CFRP mirror. Mech. Compos. Mater. Struct. 17(5), 328–334 (2010)CrossRef

Titel: Dynamic thermomechanical analysis on composite sandwich plates with damage
verfasst von: D. H. Li
S. Ma
Publikationsdatum: 11.05.2021
Verlag: Springer Berlin Heidelberg
Erschienen in: Continuum Mechanics and Thermodynamics / Ausgabe 5/2021
Print ISSN: 0935-1175
Elektronische ISSN: 1432-0959
DOI: https://doi.org/10.1007/s00161-021-01020-4

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