PSI - Issue 5

Dan Mihai Constantinescu et al. / Procedia Structural Integrity 5 (2017) 653–658 Mocian et al./ Structural Integrity Procedia 00 (2017) 000 – 000

658

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Acknowledgements

Miss Oana Mocian acknowledges the PhD student scholarship given by the Ministry of National Education from Romania through the contract no. 06.40/2014 which made possible the present researches.

References

Atas, C., Sevim, C., 2010. On the impact response of sandwich composites with cores of balsa wood and PVC foam. Composite Structures 93, 40 48. Caliskan, U., Apalak, M.K., 2017. Low velocity impact behavior of foam core sandwich beams: Experimental. Composites Part B: Engineering 112, 158-175. Feng, D., Aymerich, F., 2013. Damage prediction in composite sandwich panels subjected to low-velocity impact, Composites Part A - Applied Science and Manufacturing 52, 12-22. Hazizan, M.A., Cantwell, W.J., 2002. The low velocity impact response of foam-based sandwich structures. Composites Part B: Engineering 33, 193-204. Kasparek, E., Zencker, U., Scheidemann, R., Volzke, H., Muller, K., 2011. Numerical and experimental studies of polyurethane foam under impact loading. Computational Materials Science 50, 1353-1358. Pashah, S., Massenzio, M., Jacquelin, E., 2008. Prediction of structural response for low velocity impact. International Journal of Impact Engineering 35, 119-132. Rizov, V.I., 2007. Low velocity localized impact study of cellular foams. Materials & Design 28, 2632-2640. Wang, H., Ramakrishnan, K.R., Shankar, K., 2016. Experimental study of the medium velocity impact response of sandwich panels with different cores. Materials & Design 99, 68-82. Wang, J., Waas, A.M., Wang, H., 2013. Experimental and numerical study on the low velocity impact behavior of foam-core sandwich panels. Composite Structures 96, 298-311. Zhou, J., Hassan, M.Z., Guan, Z., Cantwell, W.J., 2012. The low velocity impact response of foam-based sandwich panels. Composite Science and Technology 72, 1781-1790.