Gilles Lubineau
King Abdullah University of Science and Technology
Composite numberDigital image correlationConductivityConductive polymerFinite element methodComposite materialEpoxyPEDOT:PSSNanotechnologyMaterials scienceElectrical conductorLaminated compositesMathematicsMicromechanicsComputer scienceCarbon nanotubePolymerDisplacement (vector)Structural engineeringAdhesiveDelaminationFracture toughnessToughness
244Publications
42H-index
4,565Citations
Publications 247
Newest
#1Muhammad Basha (KAU: King Abdulaziz University)H-Index: 4
#2A. Wagih (Zagazig University)H-Index: 21
Last. Mohamed A. Eltaher (KAU: King Abdulaziz University)H-Index: 25
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Abstract null null Lightweight CFRP/wood sandwich composites receive considerable attention because they can be tailored to satisfy many specifications. Therefore, the damage modes during low velocity impact and compression after impact (CAI) of CFRP/wood sandwich laminate with different wood core types are investigated in this article. The effect of wood fiber orientation on the specific energy dissipation and CAI strength are studied. Results demonstrated that the laminate with balsa core wood...
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#1Ruslan Melentiev (KAUST: King Abdullah University of Science and Technology)
#2Nan Yu (Edin.: University of Edinburgh)
Last. Gilles Lubineau (KAUST: King Abdullah University of Science and Technology)H-Index: 42
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Abstract null null Polymer metallization via cold spray additive manufacturing is an emerging thermal spray approach for deposition of thick metallic coatings on polymers and fiber-reinforced composites that promises high productivity, ecofriendliness, and scalability of the coating process. In polymer metallization via cold spray, solid metallic powder is accelerated by a supersonic stream of preheated gas and propelled toward a polymer substrate, where it is built layer-by-layer via impact-ind...
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#1Ping Hu (KAUST: King Abdullah University of Science and Technology)H-Index: 2
#2Ditho Ardiansyah Pulungan (KAUST: King Abdullah University of Science and Technology)H-Index: 4
Last. Gilles Lubineau (KAUST: King Abdullah University of Science and Technology)H-Index: 42
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Abstract null null Fiber bridging can significantly influence the interlaminar toughness of laminated composites. However, very little is known about to what extent it depends on the processing conditions. In this paper, we performed a back-bonded double cantilever beam (BB-DCB) test to study the curing process influence on the development of fiber bridging for composite laminates with various thicknesses. The BB-DCB sample included a middle core plate and two backing adherends bonded to each si...
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#1A. Wagih (KAUST: King Abdullah University of Science and Technology)H-Index: 21
#2Ran Tao (KAUST: King Abdullah University of Science and Technology)H-Index: 9
Last. Gilles Lubineau (KAUST: King Abdullah University of Science and Technology)H-Index: 42
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Abstract null null Herein, a novel adhesive joint that mimics the structure of the bondline of two biological systems that have excellent adhesion, gecko and mytilus californianus, was designed. Sacrificial cracks were embedded inside the adhesive layers to activate new dissipative mechanisms and thus increase the effective interlaminar fracture toughness. A finite element model (FEM) that considered the progressive damage in the adhesive layer and decohesion at both adhesive/adherend interfaces...
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#1Gilles LubineauH-Index: 42
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#1Hussein Nesser (KAUST: King Abdullah University of Science and Technology)H-Index: 3
#2Gilles Lubineau (KAUST: King Abdullah University of Science and Technology)H-Index: 42
The research reported in this publication was financially supported by King Abdullah University of Science and Technology (KAUST), Saudi Arabia, under the award number BAS/1/1315-01-01.
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#1Arief Yudhanto (KAUST: King Abdullah University of Science and Technology)H-Index: 17
#2Marco Alfano (UW: University of Waterloo)H-Index: 2
Last. Gilles Lubineau (KAUST: King Abdullah University of Science and Technology)H-Index: 42
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Abstract A considerable weight reduction in thermoset-based composite is attained by replacing mechanical fasteners with a structural adhesive during the secondary bonding. The quality of this adhesively-bonded joint greatly depends on the surface preparation strategies applied to the mating composites as they influence the surface morphology, topography, interface composition, and mechanical performance of the adherend-adhesive interphase. We reviewed the recent progress of surface preparation ...
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#1Hussein Nesser (KAUST: King Abdullah University of Science and Technology)H-Index: 3
#2Gilles Lubineau (KAUST: King Abdullah University of Science and Technology)H-Index: 42
Accurate wireless strain monitoring is critical for many engineering applications. Capacitive strain sensors are well suited for remote sensing but currently have a limited sensitivity. This study presents a new approach for improving the sensitivity of electrical capacitance change-based strain sensors. Our technology is based on a dielectric elastomer layer laminated between two fragmented electrodes (i.e., carbon nanotube papers) that, by design, experiences a significant change in resistance...
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#1Xiaole Li (KAUST: King Abdullah University of Science and Technology)H-Index: 7
#2Shuai Lu (KAUST: King Abdullah University of Science and Technology)
Last. Gilles Lubineau (KAUST: King Abdullah University of Science and Technology)H-Index: 42
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Abstract null null Adhesive bonding community shows a continued interest in using bridging mechanisms to toughen the interface of secondary bonded joints, especially in the case of laminated composites. Due to snap-back instability that occurs during fracture, confusions may exist when identifying the toughening effect experimentally. The true toughening effect may be overestimated by lumping all energy contributions (kinetic energy included) in an overall effective toughness. Here, fundamentals...
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#1Abdullah Bukhamsin (KAUST: King Abdullah University of Science and Technology)H-Index: 2
#2Khalil Moussi (KAUST: King Abdullah University of Science and Technology)H-Index: 2
Last. Jurgen Kosel (KAUST: King Abdullah University of Science and Technology)H-Index: 30
view all 7 authors...
Precision farming has the potential to increase global food production capacity whilst minimizing traditional inputs. However, the adoption and impact of precision farming are contingent on the availability of sensors that can discern the state of crops, while not interfering with their growth. Electrical impedance spectroscopy offers an avenue for nondestructive monitoring of crops. To that end, it is reported on the deployment of impedimetric sensors utilizing microneedles (MNs) that can be us...
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