Paper number 1308
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TESTING AND ANALYSIS OF COMPOSITE SANDWICH BEAMS |
I. M. Daniel1, J. L. Abot2, and K. A. Wang2
1Walter P. Murphy Professor, Departments of Civil and Mechanical Engineering,
Robert R. McCormick School of Engineering and Applied Science, Northwestern University
2137 Sheridan Road, Evanston, IL 60208 USA
2Research Assistant, Theoretical and Applied Mechanics,
Robert R. McCormick School of Engineering and Applied Science, Northwestern University,
2137 Sheridan Road, Evanston, IL 60208 USA
| Summary | The objective of this work was to study the behavior of composite sandwich structures and develop simple models to explain this behavior as a function of material, geometric and loading parameters. The scope of the study consists of mechanical characterization of the sandwich constituent materials, i.e., composite facings, honeycomb and foam cores, and adhesive layers; fabrication and testing of sandwich beams in bending; identification and recording of failure mechanisms by direct observation and nondestructive evaluation; and comparison of observed deformation and failure behavior with analytical predictions. The beam facings displayed the characteristic nonlinearities of the composite material used, a softening nonlinearity on the compression side and a stiffening one of the tension side. The linear response of the beam is perfectly described by a simple bending model neglecting the contribution of the core, however, the more pronounced nonlinear behavior requires more accurate characterization of the core and adhesive materials separately, and more refined modeling. |
Keywords | sandwich beams, fabrication, carbon/epoxy composite, honeycomb cores, foam cores, test methods, modeling, nonlinear response, failure mechanisms. |