Micromechanical analysis of age-induced strength reduction in a multiaxially loaded short-fiber reinforced thermoplastic

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Samenvatting

In this study, we demonstrate that the strength of a short-fiber reinforced polymer as measured in uniaxial tension is not a good indicator for its strength under multiaxial loading conditions. To illustrate this fact, the influence of physical aging on the strength of a 20 wt% short-fiber reinforced polycarbonate is studied for a uniaxial and biaxial loading condition. Results demonstrate that aging strongly reduces the strength in multiaxial loading, whereas, it increases in uniaxial loading. To rationalize these observations, a micromechanical analysis of the local stress state is performed using three-dimensional (3D) representative volume elements (RVE) in combination with a constitutive model that adequately describes the intrinsic deformation response of the matrix. RVE simulations demonstrate that biaxial loading results in higher local hydrostatic stresses and triaxiality than the uniaxial loadcase for the composite system considered, and aging results in a shift towards higher values. The high triaxiality, the magnitude of the hydrostatic stress, and the shift in hydrostatic stress upon aging, presents a clear rationalization why physical aging induces a strength reduction in biaxial loading and not in uniaxial loading. These results highlight that care should be taken when predicting strength under complex loading conditions with only uniaxial data available.

Originele taal-2Engels
Artikelnummere54512
Aantal pagina's17
TijdschriftJournal of Applied Polymer Science
Volume140
Nummer van het tijdschrift41
DOI's
StatusGepubliceerd - 5 nov. 2023

Bibliografische nota

Funding Information:
This research forms part of the research program of DPI, project # 824t19.

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