Composite macro/nano materials

 

[1]  Angioni, S. L., Visrolia, A. and Meo, M., 2012. Combining X-FEM and a multilevel mesh superposition method for the analysis of thick composite structures. Composites Part B-Engineering, 43 (2), pp. 559-568.

[2] Pinto, F., White, A. and Meo, M., 2012. Forthcoming. Characterisation of ductile prepregs. Applied Composite Materials

[3] Angioni, S. L., Meo, M. and Foreman, A., 2011. A critical review of homogenization methods for 2D woven composites. Journal of Reinforced Plastics and Composites, 30 (22), pp. 1895-1906.

[4] Angioni, S. L., Meo, M. and Foreman, A., 2011. A comparison of homogenization methods for 2-D woven composites. Composites Part B-Engineering, 42 (2), pp. 181-189.

[5] Pernice, M. F., Annicchiarico, D., Petriccione, A., De Tommaso, G., Meo, M.,Antonucci, V. and Zarrelli, M., 2011. Structural polymer composite materials for muscle-skeletal diagnostic systems. Journal of Reinforced Plastics and Composites, 30 (4), pp. 287-300.

[6] Angioni, S. L., Meo, M. and Foreman, A., 2011. A comparison of homogenization methods for 2-D woven composites. Composites Part B-Engineering, 42 (2), pp. 181-189.

[7] Rossi, M. and Meo, M., 2009. On the estimation of mechanical properties of single-walled carbon nanotubes by using a molecular-mechanics based FE approach. Composites Science and Technology, 69 (9), pp. 1394-1398.

[8] Meo, M. and Rossi, M., 2007. A molecular-mechanics based finite element model for strength prediction of single wall carbon nanotubes. Materials Science & Engineering A - Structural Materials Properties Microstructure and Processing, 454, p. 170.

[9] Meo, M. and Rossi, M., 2006. Tensile failure prediction of single wall carbon nanotube. Engineering Fracture Mechanics, 73 (17), pp. 2589-2599.

[10] Meo, M. and Rossi, M., 2006. Prediction of Young's modulus of single wall carbon nanotubes by molecular-mechanics based finite element modelling. Composites Science and Technology, 66, pp. 1597-1605.

[11] Meo, M. and Thieulot, E., 2005. Delamination modelling in a double cantilever beam. Composite Structures, 71, pp. 429-434.

[12] Meo, M., Achard, F. and Grassi, M., 2005. Finite element modelling of bridging micro-mechanics in through-thickness reinforced composite laminates. Composite Structures, 71, pp. 383-387.

[13] Grassi, M., Zhang, X. and Meo, M., 2002. Prediction of stiffness and stresses in z-fibre reinforced composite laminates. Composites Part A - Applied Science and Manufacturing, 33, pp. 1653-1664.

Dr. Michele Meo

Material Research Centre, Dept of Mechanical Engineering

 

 

 

 

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