کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
778270 | 1464077 | 2014 | 10 صفحه PDF | دانلود رایگان |
• An analytical model predicts the change in projectile energy, ballistic limit and failure modes energy during projectile impact.
• The energy absorbed by deformation of secondary fibers is about 70% in all the cases at ballistic limit.
• The increase in energy absorption due to projectile impact is observed in the laminates with clay up to 5%.
• Ballistic limit obtained from the model is validated with experimental results and good agreement is found.
Composite laminates made of glass/epoxy with and without nano fillers were subjected to projectile impact. The laminates of different thicknesses were prepared by hand lay-up and compression molding processes. Laminates were made from glass woven roving mats of 610 gsm, epoxy resin and nano clay of 1–5 wt.% of matrix. A piston type gas gun setup was used to impact a spherical nose projectile of diameter 9.5 mm and mass of 7.6 g, on the nanocomposite laminates at impact velocities in the range of their ballistic limit and above. The energy absorbed during penetration and ballistic limit of the nanocomposite laminates were studied both experimentally and analytically. The analytical model also predicts the energy absorbed in various failure modes due to tensile failure of primary fibers, deformation of secondary fibers, delamination and matrix crack. Mechanical properties like tensile modulus, stress–strain function, shear modulus, and strain energy release rate were used as input to the analytical model. Laminates of three, five and eight layers have been considered for the analysis. The effect of clay dispersion in the matrix for different failure modes is discussed. Ballistic limit obtained from the model is validated with experimental results and good agreement is found.
Journal: International Journal of Impact Engineering - Volume 74, December 2014, Pages 57–66