Thermoelastic Theory for the Response of Materials Functionally Graded in Two Directions with Applications to the Free-Edge Problem
- Author:
- Pindera, Marek-Jerzy
- Published:
- Mar 1, 1995.
- Physical Description:
- 1 electronic document
- Additional Creators:
- Aboudi, Jacob
Arnold, Steven M. - Access Online:
- hdl.handle.net
- Restrictions on Access:
- Unclassified, Unlimited, Publicly available.
- Summary:
- A recently developed micromechanical theory for the thermoelastic response of functionally graded composites with nonuniform fiber spacing in the through-thickness direction is further extended to enable analysis of material architectures characterized by arbitrarily nonuniform fiber spacing in two directions. In contrast to currently employed micromechanical approaches applied to functionally graded materials, which decouple the local and global effects by assuming the existence of a representative volume element at every point within the composite, the new theory explicitly couples the local and global effects. The analytical development is based on volumetric averaging of the various field quantities, together with imposition of boundary and interfacial conditions in an average sense. Results are presented that illustrate the capability of the derived theory to capture local stress gradients at the free edge of a laminated composite plate due to the application of a uniform temperature change. It is further shown that it is possible to reduce the magnitude of these stress concentrations by a proper management of the microstructure of the composite plies near the free edge. Thus by an appropriate tailoring of the microstructure it is possible to reduce or prevent the likelihood of delamination at free edges of standard composite laminates.
- Collection:
- NASA Technical Reports Server (NTRS) Collection.
- Note:
- Document ID: 19950017635.
Accession ID: 95N24055.
NAS 1.15:106882.
NASA-TM-106882.
E-9518. - Terms of Use and Reproduction:
- No Copyright.
- Access Online:
- hdl.handle.net
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