Assessment of Different Mathematical Models for Analysis of Low-Velocity Impact on Composite Plates in Presence of Pre-loads
Subject Areas :
Mechanical Engineering
A Davar
1
,
A Labbafian Mashhadi
2
,
J Eskandari Jam
3
,
M Heydari Beni
4
1 - Faculty of Materials and Manufacturing Technologies, Malek Ashtar University of Technology, Tehran, Iran
2 - Faculty of Materials and Manufacturing Technologies, Malek Ashtar University of Technology, Tehran, Iran
3 - Faculty of Materials and Manufacturing Technologies, Malek Ashtar University of Technology, Tehran, Iran
4 - Faculty of Materials and Manufacturing Technologies, Malek Ashtar University of Technology, Tehran, Iran
Received: 2021-12-08
Accepted : 2022-01-16
Published : 2022-03-30
Keywords:
References:
Abrate S., 2001, Modeling of impacts on composite structures, Composite Structures 51: 129-138.
Ansari M.M., Chakrabarti A., Iqbal M.A., 2016, Effects of impactor and other geometric parameters on impact behavior of FRP laminated composite plate, AMSE Journal Series: Modelling A 89(1): 25-44.
Apetre N.A., Sankar B.V., Ambur D.R., 2006, Low-velocity impact response of sandwich beams with functionally graded core, Journal of Solids and Structures 43: 2479-2496.
Aslan Z., Karakuzu R., Okutan B., 2003, The response of laminated composite plates under low-velocity impact loading, Composite Structures 59(1): 119-127.
Choi I.H., Lim C.H., 2004, Low-velocity impact analysis of composite laminates using linearized contact law, Composite Structures 66(1-4): 125-132.
Choi I.H., 2008, Low-velocity impact analysis of composite laminates under initial in-plane load, Composite Structures 86: 251-257.
Christoforou A.P., Elsharkawy A.A., Guedouar L.H., 2001, An inverse solution for low-velocity impact in composite plates, Computers & Structures 79: 2607-2619.
Dobyns A.L., 1981, Analysis of simply-supported orthotropic plates subject to static and dynamic loads, AIAA Journal 19(5): 642-650.
Feli S., Karami L., Jafari S.S., 2019, Analytical modeling of low-velocity impact on carbon nanotube-reinforced composite (CNTRC) plates, Mechanics of Advanced Materials and Structures 26(5): 394-406.
Her S.C., Liang Y.C., 2004, The finite element analysis of composite laminates and shell structures subjected to low-velocity impact, Composite Structures 66(1-4): 277-285.
Huo X., Liu H., Luo Q., Sun G., Li Q., 2020, On low-velocity impact response of foam-core sandwich panels, International Journal of Mechanical Sciences 181: 105681.
Karakuzu R., Erbil E., Aktas M., 2010, Impact characterization of glass/epoxy composite plates: An experimental and numerical study, Composites Part B: Engineering 41(5): 388-395.
Khalili S.M., Malekzadeh K., Veysi Gorgabad A., 2013, Low-velocity transverse impact response of functionally graded plates with temperature dependent properties, Composite Structures 96: 64-74.
Khalili S.M., Mittal R.K., Mohammad Panah N., 2007, Analysis of fiber reinforced composite plates subjected to transverse impact in the presence of initial stresses, Composite Structures 77(2): 263-268.
Khalili S.M.R., Soroush M., Davar A., Rahmani O., 2011, Finite element modeling of low-velocity impact on laminated composite plates and cylindrical shells, Composite Structures 93(5): 1363-1375.
Moh J.S., Hwu C., 1997, Optimization for buckling of composite sandwich plates, AIAA Journal 35: 863-868.
Olsson R., 2000, Mass criterion for wave-controlled impact response of composite plates, Composites Part A 31: 879-887.
Patil S., Reddy D.M., Study of oblique low-velocity impact on composite plate, Materials Today: Proceedings.
Payeganeh G.H., Ashenai Ghasemi F., Malekzadeh K., 2010, Dynamic response of fiber–metal laminates (FMLs) subjected to low-velocity impact, Thin-Walled Structures 48(1): 62-70.
Pierson M.O., Vaziri R., 1996, Analytical solution for low-velocity impact response of composite plates, AIAA Journal 34(8): 1633-1640.
Setoodeh A., Malekzadeh P., Nikbin K., 2009, Low-velocity impact analysis of laminated composite plates using a 3D elasticity based layerwise FEM, Materials & Design 30(9): 3795-3801.
Shivakumar K.N., Elber W., Lllg W., 1985, Prediction of impact force and duration due to low-velocity impact on circular composite laminates, Applied Mechanics 52: 674-680.
Soedel W., 2004, Vibration of Shells and Plates, Marcel Dekker INC, New York.
Swanson S.R., 1992, Limits of quasi-static solutions in impact of composite structures, Composites Part B: Engineering 2(4): 261-267.
Ugural A.C., 2010, Stresses in Beams, Plates and Shells, CRC Press, Texas.
Vinson J.R., Sierakowski R.L., 2002,The Behavior of Structures Composed of Composite Materials, Kluwer, Dordrecht.
Whitney J. M., Pagano N.J., 1970, Shear deformation in heterogeneous anisotropic plates, Applied Mechanics 37: 1031-1036.
Whitney J.M., 1987, Structural Analysis of Laminated Anisotropic Plates, Technomic, Ohio.
Zouggar K., Boukhoulda F.B., Haddag B., Nouari M., 2016, Numerical and experimental investigations of S-Glass/Polyester composite laminate plate under low energy impact, Composites Part B: Engineering 89: 169-186.
