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Modeling Composite Laminate Crushing for Crash AnalysisCrash modeling of composite structures remains limited in application and has not been effectively demonstrated as a predictive tool. While the global response of composite structures may be well modeled, when composite structures act as energy-absorbing members through direct laminate crushing the modeling accuracy is greatly reduced. The most efficient composite energy absorbing structures, in terms of energy absorbed per unit mass, are those that absorb energy through a complex progressive crushing response in which fiber and matrix fractures on a small scale dominate the behavior. Such failure modes simultaneously include delamination of plies, failure of the matrix to produce fiber bundles, and subsequent failure of fiber bundles either in bending or in shear. In addition, the response may include the significant action of friction, both internally (between delaminated plies or fiber bundles) or externally (between the laminate and the crushing surface). A figure shows the crushing damage observed in a fiberglass composite tube specimen, illustrating the complexity of the response. To achieve a finite element model of such complex behavior is an extremely challenging problem. A practical crushing model based on detailed modeling of the physical mechanisms of crushing behavior is not expected in the foreseeable future. The present research describes attempts to model composite crushing behavior using a novel hybrid modeling procedure. Experimental testing is done is support of the modeling efforts, and a test specimen is developed to provide data for validating laminate crushing models.
Document ID
20020033108
Acquisition Source
Langley Research Center
Document Type
Other
Authors
Fleming, David C. (Florida Inst. of Tech. Melbourne, FL United States)
Jones, Lisa
Date Acquired
September 7, 2013
Publication Date
January 1, 2002
Subject Category
Composite Materials
Funding Number(s)
CONTRACT_GRANT: NAG1-2260
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.

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