Lateral crashing response of thin‐walled composite structures filled with carbon nanopowder

Hegazy, Dalia A.; Awd Allah, Mahmoud M.; Alshahrani, Hassan; A. Sebaey, Tamer; Abd El‐Baky, Marwa A.

doi:10.1002/pc.27702

Cited by 17 publications

(1 citation statement)

References 52 publications

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“…[24][25][26][27] Subsequently, hybrid materials, which combine metal's plastic deformation with thermosetting composites' high specific strength and stiffness, have also lately been used for crashworthy components. [28][29][30] Nonetheless, combining thermosetting with thermoplastic or thermoplastic with metal is still in its initial stage. In this instance, Khan et al 31 investigated the crashworthiness performance of glass fiber-reinforced epoxy (GFRE) polyvinyl chloride (PVC) tubes under quasi-static axial loading.…”

Section: Introductionmentioning

confidence: 99%

Optimizing the crashworthy behaviors of hybrid composite structures through Taguchi approach

Awd Allah,

Abd El Aal,

Abd El‐baky

2024

Polymer Composites

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This paper calculates the crashworthiness capability of glass‐reinforced epoxy composites over wrapped polyvinyl chloride (PVC) circular tubes with a triggering mechanism in the form of cutouts. The intended tubes were prepared by a wet wrapping method; after which they were subjected to quasi‐static axial compression. To compute crashworthiness indications, three design parameters, each at three levels, were used. The design parameters are the hole diameter (d), the hole's number (n), and the hole position (L). The Taguchi technique has been employed in the design of experiments (DOE) tactic to obtain the best crashworthiness parameters. With the maximum specific energy absorbed (SEA) and crashing force efficiency (CFE), the optimal parameters were found. Furthermore, the main effect, signal‐to‐noise ratio (S/N), as well as the analysis of variance (ANOVA), have been studied using the commercial software programme MINITAB 18. A few experiments were accompanied by the L9 orthogonal array. According to the results, “N” has the largest impact on the value of SEA with a contribution percent of 29.27%. While “d” has the main influence on the value of CFE with a contribution percent of 67.29%. Lastly, tests for confirmation were performed. to verify the predicted values in light of the experimental results. The optimized SEA developed tube is 74.72%, which is higher than the intact PVC tube and 12.29% lower than the intact hybrid tube. However, the optimum CFE was also 48 and 29.82% higher than the intact PVC tube and the intact hybrid tube, respectively.Highlights The number of holes has the highest impact on SEA value by 29%. The ideal specimen enhances SEA by 75% compared to the intact PVC tube. Hole diameter has the most influence on CFE value by 67%. The best specimen improves the CFE by 48% related to the intact PVC tube.

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Section: Introductionmentioning

confidence: 99%

Optimizing the crashworthy behaviors of hybrid composite structures through Taguchi approach

Awd Allah,

Abd El Aal,

Abd El‐baky

2024

Polymer Composites

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Synergistic effect of Ca/Zn main stabilizer and maltitol auxiliary stabilizer on the thermal stability, mechanical properties, and transparency of poly(vinyl chloride)

Wang,

Zhang,

Dong

et al. 2024

J of Applied Polymer Sci

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Maltitol, a natural compound, offers a potentially eco‐friendly alternative to conventional auxiliary thermal stabilizers. Its auxiliary stabilization effect was studied by discoloration tests, Congo red tests, thermogravimetric analysis, and UV–visible spectroscopy. Additionally, x‐ray photoelectron spectroscopy and discoloration tests were used to study the stabilizing mechanisms of maltitol. Compared to dipentaerythritol, commonly used in the PVC industry, maltitol as an auxiliary stabilizer exhibits better improvement in thermal stability. This improvement is related to its melting point, ability to complex with zinc chloride, and content of hydroxyl groups. Furthermore, the addition of maltitol in PVC not only maintains good transparency of PVC basically unchanged but also improves the mechanical properties. Maltitol, as a natural, eco‐friendly, and efficient auxiliary thermal stabilizer, exhibits a promising application prospect in PVC materials.

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Dual‐Loading Strategy Constructing Smart Coatings With Novel Hydroxyapatite/ZIF‐8 Composites

He,

Liu,

Bao

et al. 2024

J of Applied Polymer Sci

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The marine environment with high humidity and salinity poses higher requests on the service life of traditional polymer coatings therefore, various fillers have been developed for modification. Smart coatings built by fillers that possesses passive barrier and active self‐healing properties show considerable prospects in metal protection. Herein, we applied a novel dual‐loading strategy to design tannic acid (TA) decorating hydroxyapatite (HAp)/zeolite imidazole framework (ZIF‐8) loading 2‐amino benzothiazole (2‐ABT) composite fillers. The epoxy coating (EP) doped with ABT@ZIF8‐HAp@TA (AZHT/EP) presented hydrophobicity and improved mechanical performance on Q215 steel. Moreover, the |Z|f=0.01Hz of AZHT/EP after immersion in saline water for 28 days (6.24 × 1010 Ω•cm2) is higher than pure EPs with two magnitudes. The anticorrosion mechanism of the AZHT/EP was proposed based on the analysis of corrosion products. To conclude, the dual‐loading strategy has considerable potential in designing smart coatings for corrosion protection in harsh environments.

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Lateral crashing response of thin‐walled composite structures filled with carbon nanopowder

Cited by 17 publications

References 52 publications

Optimizing the crashworthy behaviors of hybrid composite structures through Taguchi approach

Optimizing the crashworthy behaviors of hybrid composite structures through Taguchi approach

Synergistic effect of Ca/Zn main stabilizer and maltitol auxiliary stabilizer on the thermal stability, mechanical properties, and transparency of poly(vinyl chloride)

Dual‐Loading Strategy Constructing Smart Coatings With Novel Hydroxyapatite/ZIF‐8 Composites

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