Three Dimensional Analysis and Resulting Design Recommendations for Unidirectional and Multidirectional End-Notched Flexure Tests
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- B. D. Davidson
- Department of Mechanical, Aerospace and Manufacturing Engineering 151 Link Hall Syracuse University Syracuse, NY 13244-1240
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- R. Kruger
- Institute for Statics and Dynamics of Aerospace Structures University of Stuttgart Germany
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- M. König
- Institute for Statics and Dynamics of Aerospace Structures University of Stuttgart Germany
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説明
<jats:p> Results are presented from a theoretical investigation of the effects of stacking sequence on the energy release rate in laminated composite end-notched flexure test specimens. Deflections and energy release rates of unidirectional and multidirectional ENF specimens are obtained by classical laminated plate theory, shear deformable plate theory, and three dimensional finite element analyses. It is shown that the distribution of energy release rate varies across the front of an initially straight delamination. The percentage of mode II and mode III energy release rates for the specimen, as well as the local peak values of the mode II, mode III and total energy release rates that occur at the specimen's free edges are shown to correlate with a nondimensional ratio comprised of the specimen's flexural rigidities. The results of the study are used as a basis for a proposed “ENF test design procedure” that may be used for the determination of appropriate specimen stacking sequences and test geometries for studying delamination growth at interfaces between plies at various orientations. The test design procedure minimizes the contributions to the energy release rate from residual thermal stresses, geometric nonlinearities, local mode II concentrations at the specimen's free edges and local mode III effects. </jats:p>
収録刊行物
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- Journal of Composite Materials
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Journal of Composite Materials 29 (16), 2108-2133, 1995-11
SAGE Publications
