Enchancement of Strength in Composites Reinforced with Previously Stressed Fibers
- 1 January 1983
- journal article
- Published by SAGE Publications in Journal of Composite Materials
- Vol. 17 (1) , 26-44
- https://doi.org/10.1177/002199838301700103
Abstract
Failure of a fiber in an aligned composite causes a stress wave to propagate outwards placing a dynamic overstress on the neighboring fibers. This is generally greater than the static stress concentration factor which prevails after the system has settled, and increases the probability that adjacent fibers also fail, weakening the composite. This analysis shows how weak fibers may be pre-fractured to eliminate the dynamic overstress, thereby increasing the strength of the composite. This strength enhancement is discussed with reference to the level of pre-stress, fiber variability, stress concentration factors, and size of the composite.Keywords
This publication has 10 references indexed in Scilit:
- Monte Carlo simulation of the strength of composite fibre bundlesFibre Science and Technology, 1982
- Tensile Strength of Unidirectionally Reinforced Composites — IJournal of Reinforced Plastics and Composites, 1982
- Probability distributions for the strength of fibrous materials under local load sharing I: Two-level failure and edge effectsAdvances in Applied Probability, 1982
- The strength of hybrid glass/carbon fibre compositesJournal of Materials Science, 1981
- On the Probability of Failure in the Chain-of-Bundles ModelJournal of Composite Materials, 1981
- A probability model for fibrous composites with local load sharingProceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1980
- The longitudinal tensile strength of unidirectional fibrous compositesJournal of Materials Science, 1978
- The Chain-of-Bundles Probability Model For the Strength of Fibrous Materials I: Analysis and ConjecturesJournal of Composite Materials, 1978
- A statistical theory of material strength with application to composite materialsJournal of the Mechanics and Physics of Solids, 1970
- Statistical Theory of Strength of Laminated Composites IIJournal of Composite Materials, 1969