Characterization of Composite Laminates Subjected to Repeated Indentation

1. Ross C.A., Sierakowski R.L., Studies on the impact resistance of Composite plates. Composites 4 (1973) 157-61.Search in Google Scholar

2. Xiao J.R., Gama B.A., Gillespie Jr. J.W., Progressive damage and delamination in plain weave S-2 glass /SC-15 composites under quasi-static punch-shear loading. Composite struct., 78 (2007), 182-96.Search in Google Scholar

3. AbiAbdallah, Christophe Bouvet. Experimental analysis of damage creation and permanent indentation on highly oriented plates, Composites science and Tech., 69, (2009), 1238-1245.10.1016/j.compscitech.2009.02.029Search in Google Scholar

4. Crisfeld M.A., Mi Y, Davies Gao, Jellweg G.B., Finite element methods and the progressive failure modeling of composite structures. In Wen DRJ, et al., editor’s .Computational plasticity fundamentals and applications, CIMNE Barcelona; (1997), 239-54.Search in Google Scholar

5. Li CF. Hu N. Cheng JG. Fukumaga H. Sekine H. Low velocity impact induced damage of continuous fiber reinforced composite laminates. Part-II Compos part-A, 33 (2002), 1063-72.10.1016/S1359-835X(02)00078-7Search in Google Scholar

6. Mitrevski T. Marshall I.H., Thomson R., The influence of impactor shape on damage to composite laminates. Compos Struct., 76, (2006), 116-22.10.1016/j.compstruct.2006.06.017Search in Google Scholar

7. Davies G.A.O., Zhang X., Impact damage prediction in carbon composite structures. Int. J. impact Eng., 16(1) (1995), 149-70.10.1016/0734-743X(94)00039-YSearch in Google Scholar

8. Caprino G., Lopresto V., The significance of indentation in the inspection of carbon fibre reinforced plastic panels damaged by low-velocity impact. Compos. Sci. Technol., 60 (2000), 1003-12.Search in Google Scholar

9. Caprino G., Lopresto V., Factors affecting the penetration energy of glass fiber reinforced plastics subjected to a concentrated transverse load. Proc. ECCM9, Brighton, UK; 4-7 June 2000Search in Google Scholar

10. Caprino G., Lopresto V., The Penetration energy of fiber reinforced plastics under low-velocity impact conditions. Compos. Sci.Technol., 61 (2000), 65-73.Search in Google Scholar

11. Freitas M., Silva A., Reis L., Numerical evaluation of failure mechanisms on composite specimens subjected to impact loading. Composite part B, 31 (3) (2000), 199-207.10.1016/S1359-8368(00)00003-2Search in Google Scholar

12. Richardson M.O.W., Wiheart M.J., Review of low velocity impact properties of composite materials Composites, Part A -Appl, Sci. Manuf., 27A (12) (1996), 1123-31.10.1016/1359-835X(96)00074-7Search in Google Scholar

13. Wu E., Chang I.C., Woven glass/epoxy laminates subject to projectile impact, Int. J Impact Eng. 16 (4) (1995), 607-19.10.1016/0734-743X(95)00001-QSearch in Google Scholar

14. Zhou G., Greaves I.J., Impact behavior of fiber reinforced composite materials and structures, CRC press, woodhead pubs., 2000, 133-185. 10.1533/9781855738904.133Search in Google Scholar