02226oam 2200541Ia 450 991070223650332120121107111248.0(CKB)5470000002425785(OCoLC)816340321(EXLCZ)99547000000242578520121107d2012 ua 0engurmn|||||||||txtrdacontentcrdamediacrrdacarrierEffects of subscale size and shape on global energy dissipation in a multiscale model of a fiber-reinforced composite exhibiting post-peak strain softening using abaqus and FEAMAC[electronic resource] /Evan J. Pineada, Brett A. Bednarcyk, and Steven M. ArnoldCleveland, Ohio :National Aeronautics and Space Administration, Glenn Research Center,[2012]1 online resource (14 pages) illustrations (some color)NASA/TM ;2012-217650Title from title screen (viewed on Nov. 6, 2012)."August 2012.""Prepared for the Simulia Community Conference (SCC) sponsored by the Dassault Systèmes, Providence, Rhode Island, May 15-17, 2012."Includes bibliographical references (pages 13-14).Fiber compositesnasatCracksnasatPlastic deformationnasatMultiscale modelsnasatMicromechanicsnasatEnergy dissipationnasatFiber composites.Cracks.Plastic deformation.Multiscale models.Micromechanics.Energy dissipation.Pineda Evan J1387412Bednarcyk Brett A1389323Arnold S. M1390992NASA Glenn Research Center.Simulia Community Conference(2012 :Providence, R.I.)GPOGPOGPOBOOK9910702236503321Effects of subscale size and shape on global energy dissipation in a multiscale model of a fiber-reinforced composite exhibiting post-peak strain softening using abaqus and FEAMAC3490693UNINA