On the Rate-dependent Plasticity Modelling of Unidirectional Fibre-reinforced Polymeric Matrix Composites

Erice, Borja; Thomson, Daniel; Ponnusami, Sathiskumar A.; Pathan, M.V.; Petrinić, Nik

doi:10.1051/epjconf/201818301055

Cited by 3 publications

(2 citation statements)

References 12 publications

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“…Up to 6°, however, there was no noticeable nonlinearity and no signs of damage or fibre rotation in the specimens before the point of failure. In addition, shear stress-strain curves for the same IM7-8552 material in [21,22] show significant nonlinearity starting only after shear stresses of around 60-70 MPa and both the 3 and 6° tests fall below that limit (see Figure 11). Therefore, for these specimens, an accurate estimate of the internal stress state in the longitudinal plies can be obtained using linear CLT, as was done for the uniaxial compression tests in section 3.2, and the use of CP material instead of UD can be considered valid.…”

Section: Off-axis Compression Specimensmentioning

confidence: 97%

A study on the longitudinal compression strength of fibre reinforced composites under uniaxial and off-axis loads using cross-ply laminate specimens

Thomson

Cui

Erice

et al. 2019

Composites Part A: Applied Science and Manufacturing

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Longitudinal compression testing of unidirectional FRP laminates remains a challenge due to the difficulty in applying high compressive loads without stress concentrations and boundary effects leading to premature failure. This work aims to critically evaluate different specimen designs and laminate configurations, cross-ply in particular, for the determination of longitudinal compression properties of unidirectional plies. To this end, a comprehensive experimental campaign has been carried out, comparing strength, stiffness, and failure modes across different specimen designs and laminate configurations. The investigated cross-ply specimens produced comparable results without many of the issues observed in the testing unidirectional material and, therefore, are strongly recommended for the determination of longitudinal compressive strength. Finally, the cross-ply material was tested under off-axis compression to study the effects of shear on the longitudinal compression strength using a series of compression specimens cut at different angles between 0 and 15° to the direction of the laminate.

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Section: Off-axis Compression Specimensmentioning

confidence: 97%

A study on the longitudinal compression strength of fibre reinforced composites under uniaxial and off-axis loads using cross-ply laminate specimens

Thomson

Cui

Erice

et al. 2019

Composites Part A: Applied Science and Manufacturing

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“…This model is based on a model previously introduced for the plastic behavior of polymer composites [13] . Erice et al [14] compared 3 different approaches to analyze plasticity under rate dependency. The first approach is to incorporate rate dependency just for in-plane shear plasticity, the second one consists in using 3D extension of the plane stress Hill48 anisotropic plastic surface and third is a quadratic yield function inspired by Pucks fracture initiation criterion.…”

Section: Introductionmentioning

confidence: 99%

Analyzing the failure and damage of FRP composite laminates under high strain rates considering visco-plasticity

Eskandari

Pires

Camanho

et al. 2019

Engineering Failure Analysis

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In order to analyze composite structures under dynamic condition or model manufacturing processes in which high strain rates exist, it is important to develop a constitutive model that regards these effects. In this work, a phenomenological approach is used to formulate a continuum damage for composites in presence of high strain rates. Visco-plastic behavior of the composite is taken into account and the deformation of composite structures under dynamic conditions is studied. Effects of dynamic conditions on the material properties including strength and fracture toughness are included in the modeling. The model can capture the effects of strain rate on material behavior and has a good capability in the prediction of the response and final strength of composite laminates in comparison with the experimental data under medium and high rates.

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Strain-rate and off-axis loading effects on the fibre compression strength of CFRP laminates: Experiments and constitutive modelling

Thomson

Quino

Cui

et al. 2020

Composites Science and Technology

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A series of dynamic longitudinal compression tests have been performed on cross-ply IM7/8552 specimens cut at different off-axis angles to produce different combinations of compression and shear stresses. Together with results from previous quasi-static tests of the same kind, quasi-static and dynamic fibre kinking failure envelopes have been obtained using classical laminate theory. This new experimental data has been compared against predictions from the leading fibre kinking theories, made rate-dependent by using rate-dependent in-plane shear properties, and show that, while they can accurately predict the effects of strain rate on the uniaxial compression strength, they are unable to capture the effects of shear, neither at quasi-static nor dynamic rates. Instead, a simpler more phenomenological approach is proposed to predict the rate-dependent fibre kinking strength of FRP laminates under multi-axial loads until the micromechanics can be more accurately described.

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On the Rate-dependent Plasticity Modelling of Unidirectional Fibre-reinforced Polymeric Matrix Composites

Cited by 3 publications

References 12 publications

A study on the longitudinal compression strength of fibre reinforced composites under uniaxial and off-axis loads using cross-ply laminate specimens

A study on the longitudinal compression strength of fibre reinforced composites under uniaxial and off-axis loads using cross-ply laminate specimens

Analyzing the failure and damage of FRP composite laminates under high strain rates considering visco-plasticity

Strain-rate and off-axis loading effects on the fibre compression strength of CFRP laminates: Experiments and constitutive modelling

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