Analytical Prediction of Indentation and Low-Velocity Impact Responses of Fully Backed Composite Sandwich Plates
Subject Areas : EngineeringM Hosseini 1 , S.M.R Khalili 2
1 - Centre of Excellence for Research in Advanced Materials and Structures, Faculty of Mechanical Engineering, K.N. Toosi University of Technology
2 - Centre of Excellence for Research in Advanced Materials and Structures, Faculty of Mechanical Engineering, K.N. Toosi University of Technology---
Faculty of Engineering, Kingston University, London
Keywords:
Abstract :
[1] Abrate S., 1998, Impact on Composite Structures, Cambridge University Press, Cambridge.
[2] Khalili M.R., 1992, Analysis of the dynamic response of large orthotropic elastic plates to transverse impact and its application to fiber reinforced plates, PhD thesis , Indian Institute of Technology , Delhi.
[3] Mittal R.K., Khalili M.R., 1994, Analysis of impact of a moving body on an orthotropic elastic plate, The American Institute of Aeronautics and Astronautics 32(4):850-856.
[4] Wu H-YT., Chung F-K., 1989, Transient dynamic analysis of laminated composite plates subjected to transverse impact, Computers & Structures 31:453-466.
[5] Gong S.W., Toh S.L., Shim P.W., 1994, The elastic response of orthotropic laminated cylindrical shells to low-velocity impact, Composites Engineering 4(2):247-266.
[6] Williamson J.E., Lagace P.A., 1993, Response mechanism in the impact of graphite/epoxy honeycomb sandwich panels, Proceeding of the Eighth ASC Technical Conference, Cleveland, Ohio.
[7] Herup E.J., Palazotto A.N., 1997, Low-velocity impact damage initiation in graphite/epoxy/nomex honeycomb-sandwich plates, Composites Science and Technology 57:1581-1598.
[8] Turk M.H., Hoo Fatt M.S., 1999, Localized damage response of composite sandwich plates, Composites: Part B 30: 157-165.
[9] Hoo Fatt M.S., Park K.S., 2001, Dynamic models for low-velocity impact damage of composite sandwich panels- part a deformation, Composite Structures 52:335-351.
[10] Olsson R., McManus H.L., 1996, Improved theory for contact indentation of sandwich panels, The American Institute of Aeronautics and Astronautics 34:1238-1244.
[11] Anderson T., Madenci E., 2000, Graphite/epoxy foam sandwich panels under quasi-static indentation, Engineering Fracture Mechanics 67:329-344.
[12] Gibson L.J., Ashby M.F., 1997, Cellular Solids Structures and Properties, Cambridge University Press, Cambridge.
[13] Malekzadeh K., Khalili M.R., Mittal R.K., 2006, Response of in-plane linearly prestressed composite sandwich panels with transversely flexible core to low-velocity impact, Journal of Sandwich Structures and Materials 8:157-181.
[14] Hosseini M., Khalili S.M.R., Malekzadeh Fard K., 2011, Indentation analysis of in-plane prestressed composite sandwich plates: an improved contact law, Proceedings of the Eighth International Conference on Composite Science and Technology, Kuala Lumpur, Malaysia.
[15] Goldsmith W., Sackman J.L., 1991, An experimental study of energy absorption in impact on sandwich plates, The International Journal of Impact Engineering 12(2):241-262.
