The analysis of buckling mode interaction of fiber-reinforced composite columns, modeled as plate assemblies, is presented. The main assumptions are linear elasticity; a linear fundamental equilibrium path; the existence of critical states that are coincident or near coincident; and a coupled path rising from a quadratic combination of modal displacements due to interaction. The formulation adopted is known as the W-formulation, in which the energy is written in terms of a sliding set of incremental coordinates, measured with respect to the fundamental path. The energy is then expressed with respect to a reduced modal coordinate basis, and the coupled solution arising from interaction is computed. An example of a pultruded composite I-column subjected to axial compression illustrates the procedure.

Issue Section:
Review Articles
Topics:
Buckling, Composite materials, Compression, Critical points (Physics), Elasticity, Equilibrium (Physics), Fiber reinforced composites, Pultrusion
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Copyright © 1995
 by The American Society of Mechanical Engineers
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