| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Bond, Ip
University of Bristol
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (71/71 displayed)
- 2023Reversible adhesives and debondable joints for fibre-reinforced plastics: Characteristics, capabilities, and opportunitiescitations
- 2020The influence of tensile stress on inductively coupled piezoceramic sensors embedded in fibre-reinforced plasticscitations
- 2019Experimental study of moment sharing in multi-joist timber-concrete composite floors from zero load up to failurecitations
- 2018Progress in Self-Healing Fiber-Reinforced Polymer Compositescitations
- 2016In-situ repair of composite sandwich structures using cyanoacrylatescitations
- 2016Health monitoring of composite structures throughout the life cycle
- 2016Electrostatic adhesion for added functionality of composite structurescitations
- 2016Morphing hybrid honeycomb (MOHYCOMB) with in situ Poisson's ratio modulationcitations
- 2016Biomimetic photo-actuationcitations
- 2016Robust synthesis of epoxy resin-filled microcapsules for application to self-healing materialscitations
- 2016Damage Manipulation and In Situ Repair of Composite T-Jointscitations
- 2016Novel Diels-Alder based self-healing epoxies for aerospace compositescitations
- 2016Monitoring cure and detecting damage in composites with embedded sensorscitations
- 2016Variable stiffness sandwich panels using electrostatic interlocking corecitations
- 2015Design, application and validation of embedded ultrasonic sensors within composite materialscitations
- 2015STRUCTURAL MAGNETIC COMPOSITES FOR USE IN ELECTRO-MECHANICAL APPLICATIONS
- 2015Modelling and analysis of pH responsive hydrogels for the development of biomimetic photo-actuating structurescitations
- 2015Design of an embedded sensor, for improved structural performancecitations
- 2015Integrating electrostatic adhesion to composite structurescitations
- 2015Novel concept for the manipulation of damage and in-situ repair of composite t-joints
- 2014Damage manipulation & repair in composite T-joints
- 2014Hydrogel core flexible matrix composite (H-FMC) actuatorscitations
- 2014Biomimetic photo-actuation: sensing, control and actuation in sun-tracking plantscitations
- 2012Inhibiting delaminations in fibre reinforced plastic laminates with dropped plies
- 2012Stimuli triggered deployment of bio-inspired self-healing functionality
- 2012X-ray damage characterisation in self-healing fibre reinforced polymerscitations
- 2012Development and Characterisation of Pseudo-Ductile Hybrid Carbon/Glass-Epoxy Composites Made of Thin Spread Carbon Tows
- 2012Autonomous self-healing of damaged CFRP's
- 2012Predicting self-healing strength recovery using a multi-objective genetic algorithmcitations
- 2011Development of a Ferromagnetic Fibre Metal Laminatecitations
- 2011Bioinspired vasculatures for self-healing fibre reinforced polymer composites
- 2011Autonomous self-healing functionality in advanced fibre reinforced polymer composite materials
- 2011Stimuli triggered deployment of bio-inspired self-healing functionality
- 2011Mode I interfacial toughening through discontinuous interleaves for damage suppression and controlcitations
- 2011A probabilistic approach for design and certification of self-healing advanced composite structurescitations
- 2011Multi-mode self-healing in composite materials using novel chemistry
- 2010Composite corrugated structures for morphing wing skin applicationscitations
- 2010Compound joint: A novel design principle to improve strain allowables of FRP composite stringer run-outscitations
- 2010Investigation of trapezoidal corrugated aramid/epoxy laminates under large tensile displacements transverse to the corrugation directioncitations
- 2009Magnetostrictive Actuation of Fiber-Reinforced Polymer Compositescitations
- 2009Analytical study of vascular networks for self-healing composite laminates
- 2009Environmental effects on thermally induced multistability in unsymmetric composite laminatescitations
- 2009Biomimicry of plantae vascules in the development of self-healing composite structures
- 2008Experimental and parametric analysis of corrugated composite structures for morphing skin applications
- 2008Minimum mass vascular networks in multifunctional materialscitations
- 2008Morphing skinscitations
- 2008Self-healing sandwich panels: restoration of compressive strength after impact ; Self-healing sandwich panels:restoration of compressive strength after impactcitations
- 2007Mode-II interlaminar fracture investigation of novel shaped glass fibre composites
- 2007Acoustic emission energy as a fatigue damage parameter for CFRP compositescitations
- 2007Corrugated composite structures for aircraft morphing skin applications
- 2007Bioinspired self-healing of advanced composite structures using hollow glass fibrescitations
- 2007Self-healing composite sandwich structurescitations
- 2007Exploiting functional fibers in advanced composite materialscitations
- 2007Preface: Adaptive Structures: Engineering Applicationscitations
- 2007Self-healing of impact damaged CFRP
- 2007Magnetostrictive actuation of fibre / polymer composites
- 2007Biomimetic planar and branched self-healing networks in composite laminates
- 2006Measuring strain energy release rate (G Ic ) in novel fibre shape compositescitations
- 2006Measuring strain energy release rate (GIc) in novel fibre shape compositescitations
- 2005Analysis of morphing, multi-stable structures actuated by piezoelectric patches
- 2005Designing fibre shape to improve out-of-plane performance in composites
- 2004Preliminary evaluation of a designed fibre shape in polymer composites
- 2004Improving fibre reinforced plastics through-thickness properties using novel shaped fibres
- 2004Improving through-thickness properties of fibre reinforced plastics using novel shaped fibrescitations
- 2004Classical fatigue analysis and load cycle mix-event damage accumulation in fibre reinforced laminatescitations
- 2003Investigation into the behaviour of hollow glass fibre bundles under compressive loading
- 2003Preliminary evaluation of a design fibre shape in polymer composites
- 2003Modelling and testing of improving fibre reinforced plastics through thickness properties for aerospace applications Part I: A review of existing approaches and the identification of desirable characteristics
- 2003Modelling and testing of improving fibre reinforced plastics through thickness properties for aerospace applications Part II: A new approach using novel shaped fibres with geometrics based on qualitative requirements`
- 2002Mechanical behaviour of circular and triangular glass fibres and their compositescitations
- 2000Fatigue life prediction under complex loading for XAS/914 CFRP incorporating a mechanical fastenercitations
Places of action
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document
Biomimicry of plantae vascules in the development of self-healing composite structures
Abstract
<p>This paper presents the first investigation into the concept of creating a Plantae inspired vascular network within a fibre reinforced polymer composite laminate which provides an ongoing self-healing functionality but does not incur a mass penalty. Through the application of a 'lost-wax' technique, parallel hollow vascules, similar to 'ray cells' in ring porous hardwoods, were successfully introduced within a carbon fibre reinforced epoxy polymer composite laminate. The influence of single and dual vascules on the surrounding composite fibre architecture (i.e. introduction of fibre waviness and resin rich pockets) was characterised experimentally using a compression-after-impact test methodology. It has been shown that the vascules interact with the impact damage but they do not promote a preferential failure path whether aligned parallel or normal to the host plies. The compressive failure strength was found to be comparable in the baseline orientation and parallel (0°) configurations for both the undamaged and damaged (10J) cases. In the case of the normal (90°) vascule the formation of resin rich pockets does not appear to have degraded the relative compressive performance of the laminate, although intuitively the out-of-plane ply variation would be expected to trigger the early onset of compression failure. The interlaminar tensile strength tests illustrated that although a knockdown in performance occurs as a result of the vascules inclusion (39% for the 90-degree vascule, 43% for the 45-degree vascule and 61% for the inclusion of the aligned vascule), the off-axis vascule (and their associated resin-rich pockets) perform better than the vascules aligned to their host ply. This observation may explain the difference in performance observed in the compression tests where the aligned vascules not damage by the impact event, but in close proximity to the damage site, help alter the stress state ahead of the crack thus initiating earlier failure. In conclusion, the research undertaken here illustrates the positive and negative influences the vascules have on the global compressive failure mode as a minimum-mass self-healing solution. Following this new understanding, better bioinspired composite materials can be designed which harness the inherent damage tolerant capabilities to 'direct' a propagating crack into a predetermined healing feature.</p>