Thermal Delamination Modelling and Evaluation of Aluminium–Glass Fibre-Reinforced Polymer Hybrid

Chow, Z. P.; Ahmad, Zaini; Wong, KokSheik; Koloor, Seyed Saeid Rahimian; Petrů, Michal

doi:10.3390/polym13040492

Cited by 11 publications

(6 citation statements)

References 32 publications

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“…Compared with the experimental results of 107.79 J, the errors are 5.28% and 41.81% respectively. The failure mode of the 1 mm mesh size model is closer to the test, and Zhen et al 22 take the mesh as 0.8 mm when analyzing aluminum-glass fiber composite laminates at different temperatures, so the 1 mm mesh is recommended for finite element analysis. The initial impact head is 5 mm away from the test plate, and different initial velocities are given to the impact head to obtain different primary impact energy.…”

Section: Numerical Analysis and Verificationmentioning

confidence: 99%

Low-speed impact of glass/Kevlar hybrid composites: Experimental results and numerical verification

Zhang

Shen

et al. 2023

Journal of Composite Materials

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With the development of increasingly lightweight ships, composite materials are widely used, and the impact resistance of hybrid composite materials is still the focus of research. In this paper, the mechanical properties of glass fiber and Kevlar single-layer plates were tested, and the basic mechanical properties of the materials were obtained. Meanwhile, the low-speed impact test of glass/Kevlar interlayer hybrid test plates with different hybrid ratios was carried out by using a horizontal impact tester, and the impact resistance of composite materials with different hybrid ratios was studied. Based on the experimental mechanical performance parameters, the numerical method was developed to calculate the low-speed impact. Compared with the experimental results, it was found that the finite element method has high calculation accuracy. The results show that the impact resistance of the glass/Kevlar interlayer hybrid composite test plate is gradually improved with the increase of Kevlar content, and it is suggested to improve the impact resistance of the material by increasing the proportion of Kevlar in structural design.

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Section: Numerical Analysis and Verificationmentioning

confidence: 99%

Low-speed impact of glass/Kevlar hybrid composites: Experimental results and numerical verification

Zhang

Shen

et al. 2023

Journal of Composite Materials

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“…The EN parameter was obtained by the ratio of the modulus of elasticity of the epoxy resin to the thickness of the resin. 25 Here, the modulus of elasticity of the epoxy resin was 3 GPa and the adhesive thickness was 0.371 mm. The XMU parameter was taken from the literature.…”

Section: Numerical Modelmentioning

confidence: 99%

The effect of lamina configuration on low-velocity impact behaviour for glass fiber/rubber curved composites

Albayrak

Kaman

Bozkurt

2023

Journal of Composite Materials

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The aim of this study is to produce curved sandwich composites with different arrays by adding Ethylene Propylene Diene Monomer (EPDM) rubber interlayers between glass fiber woven fabrics and to investigate their behaviours under low-velocity impact. For this purpose, sandwich plates were produced through the vacuum infusion method by using glass fiber and rubber layers on the steel mold manufactured in curved form. Impact tests were applied on the plates and the effect of the stacking sequence for glass fibers/rubber layer on the impact energy absorption was examined. The energy absorption property of the composites was improved by a maximum of 45% with a layer epdm used in the midplane of the composite. Also, when rubber layers were used on the outermost surface of the composites, the damage area reduced by 14%. In the numerical part, the tests were modelled using LS-DYNA finite element packaged programme and the Hashin failure criterion-based material model was used in order to view any damages on the composite structure after the tests. The agreement between numerical and experimental results was obtained with a maximum error of 19%

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“…The adhesion strength between the cover and core layers decreased sharply wit increasing temperature, as the higher temperatures increased the overall ductility o adhesive, making crack propagation much smoother [36]. The properties of the coh elements in this study were defined based on the results presented in previous st [37,38], in which the peak traction stresses in the normal and shear modes were red by 83 % each when the temperature increased from RT to 110 °C for an epoxy-base hesive. The aim was to replicate and validate the model, where after the deep-dra The adhesion strength between the cover and core layers decreased sharply with the increasing temperature, as the higher temperatures increased the overall ductility of the adhesive, making crack propagation much smoother [36].…”

Section: Finite Element Modellingmentioning

confidence: 99%

Deep Drawing Behaviour of Steel–Glass Fibre-Reinforced and Non-Reinforced Polyamide–Steel Sandwich Materials

et al. 2023

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Thermoplastic-based fibre metal laminates (FMLs) have gained increasing interest in the automotive industry due to their forming potential—especially at higher temperatures—into complex components compared to thermoset-based ones. However, several challenges arise while processing thermoplastic-based FMLs. One the one hand, forming at room temperature (RT) leads to early failure modes, e.g., fracture and delamination. On the other hand, warm forming can extend their forming limits, although further defects arise, such as severe thickness irregularities and wrinkling problems. Therefore, this study focuses on developing different approaches for deep drawing conditions to deliver a promising, feasible, and cost-effective method for deep-drawn FML parts. We also describe the defects experimentally and numerically via the finite element method (FEM). The FMLs based on steel/glass fibre-reinforced polyamide 6 (GF-PA6/steel) are studied under different deep drawing conditions (temperatures, punch, and die dimensions). In addition, mono-materials and sandwich materials without fibre reinforcement are investigated as benchmarks. The results showed that the best deep drawing condition was at a temperature of 200 °C and a die/punch radius ratio of 0.67, with a gap/thickness ratio of ≤2.0. The FEM simulation via Abaqus 6.14 was able to successfully replicate the anisotropic properties and wrinkling of the GF-PA6 core in an FML, resembling the experimental results.

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Thermal Delamination Modelling and Evaluation of Aluminium–Glass Fibre-Reinforced Polymer Hybrid

Cited by 11 publications

References 32 publications

Low-speed impact of glass/Kevlar hybrid composites: Experimental results and numerical verification

Low-speed impact of glass/Kevlar hybrid composites: Experimental results and numerical verification

The effect of lamina configuration on low-velocity impact behaviour for glass fiber/rubber curved composites

Deep Drawing Behaviour of Steel–Glass Fibre-Reinforced and Non-Reinforced Polyamide–Steel Sandwich Materials

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