Summary
Many unidirectional composites are made using carbon fibres which have anisotropic thermo-mechanical properties. There is a need, therefore, to take account of this anisotropy when making predictions of the properties of damaged composites. For the more general case when the fibres and matrix are both transverse isotropic solids, a relatively simple shear-lag approach to understanding stress transfer between fibres and matrix is presented. A similar approach is used to develop a shear-lag model of stress transfer between neighbouring plies in a cross-ply laminate containing transverse cracks. As to be expected stress transfer is governed by second order ordinary differential equations which are easily solved. It is shown how a more realistic model of stress transfer for unidirectional composites must be modified when the fibres and matrix of the composite are transverse isotropic solids. Reference is made to more realistic models of stress transfer in cross-ply laminates containing transverse cracks in the 90 ply. The more realistic models lead to fourth order differential equations. Such models are thus more flexible than shear lag models in that a greater variety of boundary conditions can be satisfied.
A procedure is described which enables the matrix cracking stress for unidirectional composites, and the transverse cracking stress for cross-ply laminates, to be calculated from the various micromechanical models of stress transfer. The models are also used to predict the dependence of the thermoelastic constants on the density of matrix cracks in unidirectional composites, and on the density of transverse cracks in cross-ply laminates. An attempt is made to predict the stress-strain curves of damaged composites based on two approximations that can be used to estimate the density of cracking as a function of applied stress.
Using the shear-lag and more realistic models of stress transfer for unidirectional and laminated composites, comparisons are made of the predictions of the thermoelastic constants and of the stress-strain curves.
Keywords
- Representative Volume Element
- Stress Transfer
- Transverse Crack
- Matrix Crack
- Order Ordinary Differential Equation
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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© 1992 Springer-Verlag, Berlin Heidelberg
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McCartney, L.N. (1992). Analytical Models of Stress Transfer in Unidirectional Composites and Cross-Ply Laminates, and Their Application to the Prediction of Matrix/Transverse Cracking. In: Reddy, J.N., Reifsnider, K.L. (eds) Local Mechanics Concepts for Composite Material Systems. IUTAM Symposia. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-84792-9_14
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DOI: https://doi.org/10.1007/978-3-642-84792-9_14
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