Julia Brunbauer scite author profile

In this work, the influences of fiber orientation and weld lines on the morphological structures and the mechanical behavior of polyamide 6.6 (PA6.6-GF35) are investigated. In quasistatic and fatigue tests tensile and 3-point-bending loads are applied. Test temperatures vary between RT and 150 C. Two different specimen types are produced by using injection moulding process to create different fiber orientations as well as weld lines. Fiber orientations are determined using computer tomography. Scanning electron microscopy is used to investigate fracture surfaces of tested specimens. Results show that mechanical properties and morphological structures depend highly on fiber orientation and temperature. Transversely oriented fibers in weld lines result in brittle failure mechanisms and decreased mechanical properties. Different stress distributions in the specimens under tensile and flexural loads have influence on the material behavior as well.

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Computational fatigue life prediction of continuously fibre reinforced multiaxial composites

Brunbauer

Gaier

Pinter

2015

Composites Part B: Engineering

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Fatigue life prediction of carbon fibre reinforced laminates by using cycle-dependent classical laminate theory

Brunbauer

Pinter

2015

Composites Part B: Engineering

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Julia Brunbauer

Effects of mean stress and fibre volume content on the fatigue-induced damage mechanisms in CFRP

Mechanical properties, fatigue damage and microstructure of carbon/epoxy laminates depending on fibre volume content

Fundamental influences on quasistatic and cyclic material behavior of short glass fiber reinforced polyamide illustrated on microscopic scale

Computational fatigue life prediction of continuously fibre reinforced multiaxial composites

Fatigue life prediction of carbon fibre reinforced laminates by using cycle-dependent classical laminate theory

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