2010 journal article

The Effects of Embedded Optical Fiber Density on the Impact Response and Lifetime of Laminated Composites

JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES, 21(18), 1819–1829.

By: C. Park n, K. Peters n  & M. Zikry n 

co-author countries: United States of America πŸ‡ΊπŸ‡Έ
author keywords: composite laminates; embedded sensors; structural health monitoring
Source: Web Of Science
Added: August 6, 2018

Graphite fiber/epoxy, two-dimensional woven composite laminates were fabricated with various densities of embedded optical fibers at the midplane. The specimens were subjected to multiple low-velocity impacts until failure, as the energy dissipated by the laminate and the maximum contact force were measured for each impact event. Cumulative probability distributions were calculated for each embedded optical fiber density, from which probability distribution functions in terms of embedded optical fiber density were extrapolated. At low fiber densities, the total energy dissipated by the specimen and the total maximum contact force over the lifetime of the specimen decreased rapidly with increasing optical fiber density. After a threshold embedded optical fiber density, the optical fibers dominated the failure mode of the laminate and the laminate lifetime, and the overall stiffness was not affected by the embedded optical fiber density. The obtained probability distribution functions could be applied for future optimization of embedded sensor placement for smart composite structures.