2014
DOI: 10.1016/j.compscitech.2014.01.013
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Numerical modelling of the damage modes in UD thin carbon/glass hybrid laminates

Abstract: This paper proposes a new FE-based approach for modelling all of the possible damage modes in glass/carbon UD hybrid laminates in tensile loading. The damage development is modelled by two sets of cohesive elements, (i) periodically embedded in the carbon layer for modelling carbon fibre failure and (ii) at the glass/carbon interface to capture delamination. The analysis is stopped when the glass layer failure is predicted by integrating the stress distribution over the glass layer to calculate an equivalent s… Show more

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Cited by 112 publications
(79 citation statements)
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“…Similar to Czél et al [13] and Jalalvand et al [129], Thysen achieved multiple fractures in the LE fibre layers, which are the glass fibres in this case. This only worked when the glass/steel ratio was low.…”
Section: Ductile Fibressupporting
confidence: 62%
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“…Similar to Czél et al [13] and Jalalvand et al [129], Thysen achieved multiple fractures in the LE fibre layers, which are the glass fibres in this case. This only worked when the glass/steel ratio was low.…”
Section: Ductile Fibressupporting
confidence: 62%
“…For their specific material combination, an upper limit of 84 µm for the carbon fibre layer thickness was determined both experimentally and theoretically. Further understanding of this phenomenon was performed by Jalalvand et al [129], who developed a finite element model for these thin ply hybrid composites. This led to the development of damage mode maps with relative thickness and absolute thickness on x and y-axis (see Fig.…”
Section: Pseudo-ductilitymentioning
confidence: 99%
“…Assuming the mechanical properties for the USN020 thin carbon layer given in Ref. [24], E 1 ¼ 101.7 GPa, E2 ¼ 6 GPa, and G12 ¼ 2.4 GPa, we can compare the stiffness of the two laminates separating the two 0 carbon layers. The modulus of the [60 C /-60 C /-60 C /60 C ] sub-laminate along the 0 direction is 5880 MPa so the stiffness of this sub-laminate is 682 N/mm (E x multiplied by the thickness).…”
Section: Comparison and Discussionmentioning
confidence: 99%
“…2 a Assumed to be equal to E-glass properties used in Ref. [24]. b This value is based on [36] as the fibre in the applied USN020A prepreg was different from that in Ref.…”
Section: Layup Selectionmentioning
confidence: 99%
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