http://imechanica.org/node/3008 Comments for "EM 388F Term Paper: Fracture Mechanics of Delamination Buckling and Growth in Laminated Composites" en http://imechanica.org/node/3008 <p> Composite laminated plates are often subject to low velocity impact which is known to cause internal ply delamination when subjected to in-plane compressive loads.&nbsp; This instability causes the delamination area to grow leading to an overall decrease in compressive strength of the laminated plate.&nbsp; This paper discusses a fracture mechanics based energy release rate approach to analyze the delamination buckling problem.&nbsp; Chai et. al [1] solve a simplified one-dimensional &ldquo;thin film&rdquo; problem where the delamination is located near the plate surface.&nbsp; The result of the simplified model is compared with a more general delamination depth case, solved in a similar manner, to establish its range of validity.&nbsp; Using a similar method and results from the one-dimensional analysis, Chai and Babcock [2] analyze compression in a laminated plate for a two-dimensional delamination. </p> <p> Reference<br /> 1.&nbsp; Chai, H., Babcock, C., Knauss, W., &ldquo;One Dimensional Modelling of Failure in Laminated Plates by Delamination Buckling,&rdquo; International Journal of Solids and Structures, Vol. 17, No. 11, pp. 1069-1083, 1981.<br /> 2.&nbsp; Chai, H., Babcock, C., &ldquo;Two-Dimensional Modelling of Compressive Failure in Delaminated Laminates,&rdquo; Journal of Composite Materials, Vol. 19, No. 1, pp. 67-98, 1985. </p> <br class="clear" /> http://imechanica.org/node/3008#comments Composites delamination buckling EM 388F fracture mechanics Spring 2008 term paper University of Texas at Austin Mon, 07 Apr 2008 11:52:23 -0400 Kenneth Hunziker 3008 at http://imechanica.org