Effect of material anisotropy on buckling load for laminated composite decks plates

Osama Mohammed Elmardi Suleiman; Mahmoud Yassin Osman; Tagelsir Hassan

doi:10.31295/ijecs.v2n1.68

Authors

Osama Mohammed Elmardi Suleiman Nile Valley University, Sudan, East Africa
Mahmoud Yassin Osman Kassala University, Sudan, East Africa
Tagelsir Hassan Omdurman Islamic University, Sudan, East Africa

Keywords:

material anisotropy, biaxial buckling, classical laminated plate theory, finite element, fortran program, composite laminated decks plates

Abstract

New numerical results are generated for in-plane compressive biaxial buckling which serves to quantify the effect of material anisotropy on buckling loading. The coupling effect on buckling loads is more pronounced with the increasing degree of anisotropy. It is observed that the variation of buckling load becomes almost constant for higher values of elastic modulus ratio.

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