693.932 PEOPLE
| People | Locations | Statistics |
|---|---|---|
| Naji, M. |
| |
| Motta, Antonella |
| |
| Aletan, Dirar |
| |
| Mohamed, Tarek |
| |
| Ertürk, Emre |
| |
| Taccardi, Nicola |
| |
| Kononenko, Denys |
| |
| Petrov, R. H. | Madrid |
|
| Alshaaer, Mazen | Brussels |
|
| Bih, L. |
| |
| Casati, R. |
| |
| Muller, Hermance |
| |
| Kočí, Jan | Prague |
|
| Šuljagić, Marija |
| |
| Kalteremidou, Kalliopi-Artemi | Brussels |
|
| Azam, Siraj |
| |
| Ospanova, Alyiya |
| |
| Blanpain, Bart |
| |
| Ali, M. A. |
| |
| Popa, V. |
| |
| Rančić, M. |
| |
| Ollier, Nadège |
| |
| Azevedo, Nuno Monteiro |
| |
| Landes, Michael |
| |
| Rignanese, Gian-Marco |
|
Daelemans, Lode
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (56/56 displayed)
- 2024Low-Velocity Impact Resistance and Compression After Impact Strength of Thermoplastic Nanofiber Toughened Carbon/Epoxy Composites with Different Layupscitations
- 2024Low-Velocity Impact Resistance and Compression After Impact Strength of Thermoplastic Nanofiber Toughened Carbon/Epoxy Composites with Different Layupscitations
- 2024Thermomechanical characterisation of reprocessable, siloxane-based, glass-fibre-reinforced vitrimerscitations
- 2024Study of the temperature-humidity equivalence and the time-temperature superposition principle in the finite-strain response of polyamide-6 and short glass fibre-reinforced polyamide-6
- 2024Thermomechanical coupling during tensile testing of PA6 and short fibre glass/PA6
- 2024Study of self-heating and local strain rate in polyamide-6 and short fibre glass/polyamide-6 under tension through synchronised full-field strain and temperature measurementscitations
- 2023ECCM Research Topic on advanced manufacturing of composites
- 2023Development of a versatile speckle pattern of nano-sized polymer particles for high-resolution SEM-DICcitations
- 2022A new virtual fiber modeling approach to predict the kinematic and mechanical behavior of through-thickness fabric compression
- 2022A new virtual fiber modeling approach to predict the kinematic and mechanical behavior of through-thickness fabric compression
- 2022A new virtual fiber modeling approach to predict the kinematic and mechanical behavior of through-thickness fabric compression
- 2022Microscale numerical simulation of yarn tensile behavior using a high-fidelity geometrical fiber model extracted from micro-CT imaging
- 2022Effect of fibre orientation, temperature, moisture content and strain rate on the tensile behaviour of short glass fibre-reinforced polyamide 6
- 2022Continuous fiber-reinforced aramid/PETG 3D-printed composites with high fiber loading through fused filament fabricationcitations
- 2021Building the third dimension : microstructure and mechanics of Additive Manufactured continuous Aramid fiber/PETG composites with variable fiber content through in-nozzle impregnation
- 2021Building the third dimension : microstructure and mechanics of Additive Manufactured continuous Aramid fiber/PETG composites with variable fiber content through in-nozzle impregnation
- 2021Toughening mechanisms responsible for excellent crack resistance in thermoplastic nanofiber reinforced epoxies through in-situ optical and scanning electron microscopycitations
- 2021Fully integrated flexible dielectric monitoring sensor system for real-time in situ prediction of the degree of cure and glass transition temperature of an epoxy resincitations
- 2021Long-term stiffness prediction of particle filled polymers by dynamic mechanical analysis : frequency sweep versus creep methodcitations
- 2021Kinematic and mechanical response of dry woven fabrics in through-thickness compression: Virtual fiber modeling with mesh overlay technique and experimental validationcitations
- 2021Lifting the quality of fused filament fabrication of polylactic acid based compositescitations
- 2020Nanofibre toughening of dissimilar interfaces in compositescitations
- 2020The transferability and design of commercial printer settings in PLA/PBAT fused filament fabricationcitations
- 2020Influencing parameters on measurement accuracy in dynamic mechanical analysis of thermoplastic polymers and their compositescitations
- 2020Delamination resistant composites by interleaving bio-based long-chain polyamide nanofibers through optimal control of fiber diameter and fiber morphologycitations
- 2020Effect of interleaved polymer nanofibers on the properties of glass and carbon fiber compositescitations
- 2020In-Situ Observations of Microscale Ductility in a Quasi-Brittle Bulk Scale Epoxycitations
- 2019Composite Materials: Excellent nanofiber adhesion for hybrid polymer materials with high toughness based on matrix interdiffusion during chemical conversion (Adv. Funct. Mater. 8/2019)citations
- 2019Interdiffusing core-shell nanofiber interleaved composites for excellent Mode I and Mode II delamination resistancecitations
- 2019Bio-material polylactic acid/poly(butylene adipate-co-terephthalate) blend developed for extrusion- based additive manufacturing
- 2019Bio-material polylactic acid/poly(butylene adipate-co-terephthalate) blend developed for extrusion- based additive manufacturing
- 2019Improving mechanical properties for extrusion-based additive manufacturing of poly(lactic acid) by annealing and blending with poly(3-hydroxybutyrate)citations
- 2019Bio-material polylactic acid/poly(butylene adipate-co-terephthalate) blend development for extrusion-based additive manufacturing
- 2019Bio-material polylactic acid/poly(butylene adipate-co-terephthalate) blend development for extrusion-based additive manufacturing
- 2018Electrospun nanofibrous interleaves for improved low velocity impact resistance of glass fibre reinforced composite laminatescitations
- 2018Size limitations on achieving tough and healable fibre reinforced composites through the use of thermoplastic nanofibrescitations
- 2017Novel composite materials with tunable delamination resistance using functionalizable electrospun SBS fiberscitations
- 2017Electrospun nanofibers for highly toughened fibre reinforced polymer composite laminates
- 2017INTERLAMINAR TOUGHENING OF RESIN TRANSFER MOLDED LAMINATES BY ELECTROSPUN POLYCAPROLACTONE STRUCTURES: EFFECT OF THE INTERLEAVE MORPHOLOGY
- 2017Improved fatigue delamination behaviour of composite laminates with electrospun thermoplastic nanofibrous interleaves using the Central Cut-Ply methodcitations
- 2016Damage-resistant composites using electrospun nanofibers: a multiscale analysis of the toughening mechanismscitations
- 2016TOWARDS DAMAGE RESISTANT COMPOSITES USING ELECTROSPUN NANOFIBERS: A MULTISCALE ANALYSIS OF THE TOUGHENING MECHANISMS
- 2016TOWARDS DAMAGE RESISTANT COMPOSITES USING ELECTROSPUN NANOFIBERS: A MULTISCALE ANALYSIS OF THE TOUGHENING MECHANISMS
- 2016Electrospinning of sacrificial nanofibers for the creation of a self-healing nanovascular network and its effect on the properties of an epoxy matrix
- 2016Electrospinning of sacrificial nanofibers for the creation of a self-healing nanovascular network and its effect on the properties of an epoxy matrix
- 2016Interlaminar toughening of resin transfer molded laminates by electrospun polycaprolactone structures : effect of the interleave morphologycitations
- 2016Increasing the damage resistance of composites by interleaving them with electrospun nanofibrous veils
- 2016Using aligned nanofibres for identifying the toughening micromechanisms in nanofibre interleaved laminatescitations
- 2016Finite element simulation of the woven geometry and mechanical behaviour of a 3D woven dry fabric under tensile and shear loading using the digital element methodcitations
- 2015Using a polyester binder for the interlaminar toughening of glass/epoxy composite laminates
- 2015Using a polyester binder for the interlaminar toughening of glass/epoxy composite laminates
- 2015Bisphenol A based polyester binder as an effective interlaminar toughenercitations
- 2015Bisphenol A based polyester binder as an effective interlaminar toughenercitations
- 2015Nanofibre bridging as a toughening mechanism in carbon/epoxy composite laminates interleaved with electrospun polyamide nanofibrous veilscitations
- 2015INTERLAMINAR TOUGHENING OF RESIN TRANSFER MOULDED GLASS FIBRE EPDXY LAMINATES BY POLYCAPROLACTONE ELECTROSPUN NANOFIBRES
- 2014Interlaminar toughening of resin transfer moulded glass fibre epoxy laminates by polycaprolactone electrospun nanofibrescitations
Places of action
| Organizations | Location | People |
|---|
article
Delamination resistant composites by interleaving bio-based long-chain polyamide nanofibers through optimal control of fiber diameter and fiber morphology
Abstract
In this work an innovative electrospinning system is proposed that simultaneously has an adequate temperature resistance, a high increase in mode I (þ51%) and mode II (þ96%) delamination performance and can be commercially produced. Interleaving nanofibrous veils can potentially solve the issue of the limited delamination resistance encountered in composite laminates, but industrial upscaling has always been impeded by one or more critical factors. These constraining factors include a limited temperature stability of the nanofibers, a lack in simultaneous mode I and II delamination performance increase and the complexity of the electrospinning system because non-commercial polymers or specialty nanofibers (e.g. coaxial) are required. In this paper, a robust electrospinning system is proposed that is the first to overcome all major hurdles to make nanofiber toughening industrially viable. A new class of nanofibers based on biosourced polyamide 11 and its poly(ether-block-amide) co-polymers is used to deal with those shortcomings. The nanofibers have tuneable diameters down to 50 nm and cross-section morphologies ranging from circular to ribbon-shaped. The key to this work is the fundamental underpinning of the toughening effect using a broad range of interleaves with different mechanical and thermal properties, fiber diameters and fiber morphologies, all produced from the same bio-based base polymer. Generally, round and thin nanofibers performed better than larger and ribbon-like fibers. The relationship between the fiber morphology and the delamination performance is further underpinned using detailed analysis of the fracture surface. Ultimately, this results in a range of optimized nanofibrous veils capable of improving the delamination resistance considerably without suffering from the aforementioned drawbacks.