Open AccessCharacterization of Delamination Onset and Growth in a Composite Laminate
Author(s) -
TK O’Brien
Publication year - 1982
Publication title -
nasa sti repository (national aeronautics and space administration)
Language(s) - English
Resource type - Book series
DOI - 10.1520/stp34325s
Subject(s) - delamination (geology) , materials science , composite material , fiber pull out , stiffness , composite laminates , epoxy , composite number , strain energy release rate , ultimate tensile strength , fracture mechanics , tectonics , subduction , paleontology , biology
The onset and growth of delaminations in unnotched (+ or - 30/+ or - 30/90/90 bar) sub S graphite epoxy laminates is described quantitatively. These laminates, designed to delaminate at the edges under tensile loads, were tested and analyzed. Delamination growth and stiffness loss were monitored nondestructively. Laminate stiffness decreased linearly with delamination size. The strain energy release rate, G, associated with delamination growth, was calculated from two analyses. A critical G for delamination onset was determined, and then was used to predict the onset of delaminations in (+45 sub n/-45 sub n/o sub n/90 sub n) sub s (n=1,2,3) laminates. A delamination resistance curve (R curve) was developed to characterize the observed stable delamination growth under quasi static loading. A power law correlation between G and delamination growth rates in fatigue was established.
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