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15 results on '"Dobah, Yousef A A"'

1. Multiscale natural fibres and architected reinforced thermoplastics

Author

Dobah, Yousef A. A., Scarpa, Fabrizio, and Ward, Carwyn

Subjects
PFC, FFF, Thermoforming, Composites, Natural fibers, Auxetics, Mechanical testing
Abstract

Plant fibres composites (PFCs) have lately gained significant interest due to their environment friendly aspects and enhanced physical and mechanical performances. A subcategory of PFCs that uses thermoplastics has become widespread with the advent of the additive manufacturing industry. This work is focused on the investigation of the thermoformability of PFCs made using two techniques: hot-press thermoforming and 3D printing. The hot-press technique is widely used by researchers and industrials, whereas 3D printing is celebrated as a technique that can produce very complex shapes in a relatively facile manner. The main goal of the work here is to explore the ability of each technique to produce PFC objects without requiring elaborate setups. Another objective is to assess their integration, alongside the use of other assistive techniques and tools like a vacuum bagging and oven. These assessments have been aimed at achieving better manufacturing outcomes, such as a lower fabrication time. In the part related to the optimization of the hot-press technique, flax and polypropylene (flax/PP) laminates have been fabricated and examined, mechanically and aesthetically, for their sensitivity towards five fabrication parameters and two post-processing variables. The produced Flax/PP laminate has shown potential use as a replacement to its glass counterparts, due to their advantageous specific stiffness. Regarding the 3D printing technique, a fused filament fabrication (FFF) printer and Polylactic Acid (PLA) filament have been used to prototype auxetic cellular structures. The study begun by looking at the effect of the filament colour and the printer deposition angle on the mechanical performance of the prints. Afterward, auxetic cellular structures were printed and examined. Flat-shaped honeycombs Poisson's ratio (PR) and dome-shaped honeycombs indentation and drop impact properties have been investigated. Dome-shaped honeycombs, in particular, show an interesting softened post-buckling indentation, more accentuated with auxetic (i.e., negative Poisson's ratio) cellular configurations. PLA and wood-plastic composites filaments have been later successfully produced in the lab with printable characteristics using an off-the-shelf extruder. These filaments properties were found to rival their commercially available counterparts. PFCs fabrication and examination are yet to be established as a standardised industry, which is still impeded by the lack of open-access knowledge. Further developments are commented for the next big evolution in PFC laminate thermoforming technology.

Published
2022

2. Investigation of Temperature at Al/Glass Fiber-Reinforced Polymer Interfaces When Drilling Composites of Different Stacking Arrangements.

Author

Salem, Brahim, Mkaddem, Ali, Habak, Malek, Dobah, Yousef, Elfarhani, Makram, and Jarraya, Abdessalem

Subjects
TRANSITION temperature, FIBER-reinforced plastics, METAL fibers, GLASS transitions, THRUST
Abstract

This attempt covers an investigation of cutting temperature at interfaces of Fiber Metal Laminates (FMLs) made of glass fiber-reinforced polymer (GFRP) stacked with an Al2020 alloy. GFRP/Al/GFRP and Al/GFRP/Al composite stacks are both investigated to highlight the effect of stacking arrangement on thermal behavior within the interfaces. In a first test series, temperature history is recorded within the metal/composite stack interfaces using preinstalled thermocouples. In a second test series, a wireless telemetry system connected to K-type thermocouples implanted adjacent to the cutting edge of the solid carbide drill is used to record temperature evolution at the tool tip. Focus is put on the effects of cutting speed and stacking arrangement on the thrust force, drilling temperature, and delamination. From findings, the temperature histories show high sensitivity to the cutting speed. When cutting Al/GFRP/Al, the peak temperature is found to be much higher than that recorded in GFRP/Al/GFRP and exceeds the glass transition point of the GFRP matrix under critical cutting speeds. However, thrust force obtained at constitutive phases exhibits close magnitude when the stacking arrangement varies, regardless of cutting speed. Damage analysis is also discussed through the delamination factor at different stages of FML thickness. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
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5. Multiscale natural fibres and architected reinforced thermoplastics

Author

Dobah, Yousef A A and Dobah, Yousef A A

Abstract

Plant fibres composites (PFCs) have lately gained significant interest due to their environment friendly aspects and enhanced physical and mechanical performances. A subcategory of PFCs that uses thermoplastics has become widespread with the advent of the additive manufacturing industry. This work is focused on the investigation of the thermoformability of PFCs made using two techniques: hot-press thermoforming and 3D printing. The hot-press technique is widely used by researchers and industrials, whereas 3D printing is celebrated as a technique that can produce very complex shapes in a relatively facile manner. The main goal of the work here is to explore the ability of each technique to produce PFC objects without requiring elaborate setups. Another objective is to assess their integration, alongside the use of other assistive techniques and tools like a vacuum bagging and oven. These assessments have been aimed at achieving better manufacturing outcomes, such as a lower fabrication time. In the part related to the optimization of the hot-press technique, flax and polypropylene (flax/PP) laminates have been fabricated and examined, mechanically and aesthetically, for their sensitivity towards five fabrication parameters and two post-processing variables. The produced Flax/PP laminate has shown potential use as a replacement to its glass counterparts, due to their advantageous specific stiffness. Regarding the 3D printing technique, a fused filament fabrication (FFF) printer and Polylactic Acid (PLA) filament have been used to prototype auxetic cellular structures. The study begun by looking at the effect of the filament colour and the printer deposition angle on the mechanical performance of the prints. Afterward, auxetic cellular structures were printed and examined. Flat-shaped honeycombs Poisson's ratio (PR) and dome-shaped honeycombs indentation and drop impact properties have been investigated. Dome-shaped honeycombs, in particular, show an interesting so

Published
2022

10. Kirigami inspired natural fibre cellular structures for future vibroacoustics applications

Author

Broccolo, Simone, Palumbo, Rita, Campana, Marc-Antoine, Dobah, Yousef, Scarpa, Fabrizio, Ouisse, Morvan, Ichchou, Mohamed, Advanced Composites Centre for Innovation and Science (ACCIS), University of Bristol [Bristol], Franche-Comté Électronique Mécanique, Thermique et Optique - Sciences et Technologies (UMR 6174) (FEMTO-ST), Université de Technologie de Belfort-Montbeliard (UTBM)-Ecole Nationale Supérieure de Mécanique et des Microtechniques (ENSMM)-Université de Franche-Comté (UFC), Université Bourgogne Franche-Comté [COMUE] (UBFC)-Université Bourgogne Franche-Comté [COMUE] (UBFC)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Tribologie et Dynamique des Systèmes (LTDS), École Centrale de Lyon (ECL), and Université de Lyon-Université de Lyon-École Nationale des Travaux Publics de l'État (ENTPE)-Ecole Nationale d'Ingénieurs de Saint Etienne-Centre National de la Recherche Scientifique (CNRS)

Subjects
[PHYS.MECA]Physics [physics]/Mechanics [physics]
Abstract

International audience; The aerospace segment makes large use of cellular structures in sandwich panels, which are known to possess good stiffness while saving weight. Metallic cores are currently being replaced by different classes of composites, especially because of their poor vibration transmissibility. The inclusion of vibroacoustics constraints in the design process gives the opportunity to obtain multifunctional structures that still provide mechanical efficiency while introducing absorption, tunable vibration transmissibility or damping capabilities. In this work, natural fibre prepregs are turned into periodic panels using the ancient Japanese art technique of cutting and folding paper, known as Kirigami. Flax fibre with Polypropylene matrix was used to obtain a cellular structure with improved absorption properties and therefore, thermoforming was adopted due to its compatibility with Kirigami and thermoplasticity of the matrix. A dedicated mould and numerically controlled cutters as well as adhesive were adopted to complete the Kirigami procedure. Numerical simulations were carried out in order to identify the best performing candidates in terms of the properties mentioned above and through-the-thickness vibration transmissibility. Consequently, the selected configurations were manufactured and tested. This natural fibre composite cellular platform will be used for further improving the vibroacoustic properties of the manufactured cores by embedding periodic inclusions of various type and materials within the core, and by analysing different cell topologies.

Published
2017

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