2015
DOI: 10.1016/j.compositesa.2015.01.011
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Influence of plastic deformation on single-fiber push-out tests of carbon fiber reinforced epoxy resin

Abstract: Please cite this article as: Jäger, J., Sause, M.G.R., Burkert, F., Moosburger-Will, J., Greisel, M., Horn, S., Influence of plastic deformation on single-fiber push-out tests of carbon fiber reinforced epoxy resin, Composites: Part A (2015), doi: http://dx. AbstractIn our study we present a procedure to measure and analyze single-fiber push-out force-displacement curves on carbon fiber reinforced polymers using a cyclic loading-unloading scheme. The measured cyclic force-displacement curves allow an energy-ba… Show more

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Cited by 50 publications
(36 citation statements)
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“…6(b) illustrates the more general case with a neighboring fiber breaking the cylindrical symmetry of the arrangement with respect to the loaded fiber. This configuration results in a higher stress concentration in the narrow region between the fibers and, consequently, leads to stable crack growth along the interface in that region at an early stage of the experiment [19]. With increased loading, the crack propagates in fiber axis direction until it reaches the back surface of the sample.…”
Section: Crack Areas Of Stable and Unstable Crack Propagationmentioning
confidence: 97%
See 1 more Smart Citation
“…6(b) illustrates the more general case with a neighboring fiber breaking the cylindrical symmetry of the arrangement with respect to the loaded fiber. This configuration results in a higher stress concentration in the narrow region between the fibers and, consequently, leads to stable crack growth along the interface in that region at an early stage of the experiment [19]. With increased loading, the crack propagates in fiber axis direction until it reaches the back surface of the sample.…”
Section: Crack Areas Of Stable and Unstable Crack Propagationmentioning
confidence: 97%
“…Recently, this approach was expanded to samples with a more ductile matrix, e.g. for carbon-fiber reinforced polymers, leading to substantial plastic matrix deformation during the test and to crack initiation without a distinct signature in the load-displacement curve [17][18][19].…”
Section: Single-fiber Push-out Test With Unloading-reloading Cyclementioning
confidence: 99%
“…In recent years, some approaches used fracture mechanics concept as hybrid approaches [50,58] or in their pure form [76] to describe damage progression within laminates. Similar to the strength based failure criteria, there is still room for improvement of the experimental methods to determine microscopic fracture toughness values for various load conditions [15,77,78].…”
Section: Quasi-static Failure Including Growth Of Damage Damage Mechmentioning
confidence: 98%
“…Hence, the conditions of a real composite material are maintained. Moreover, even a detailed investigation of the composite's mechanical properties and crack propagation is possible [52]. The sample preparation (thin sections of approx.…”
Section: Single Filament Testsmentioning
confidence: 99%