| 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 |
|
Ward, Carwyn
University of the West of England
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (39/39 displayed)
- 2024Taking a Tailored Approach to Material Design: A Mechanistic Study of the Selective Localization of Phase-Separated Graphene Microdomains
- 2024Design and evaluation of a novel variable-length stepped scarf repair technique using a cohesive damage modelcitations
- 2023Exploiting the use of deep learning techniques to identify phase separation in self-assembled microstructures with localized graphene domains in epoxy blendscitations
- 2023Experimental and hydrodynamic methods to determine aqueous dispersion of discontinuous reclaimed carbon fibres
- 2022Self-assembled microstructures with localized graphene domains in an epoxy blend and their related propertiescitations
- 2021A Smart Interface for Automated Fibre Placement
- 2021A Smart Interface For Machine Learning Based Data-Driven Automated Fibre Placement
- 2021Developing a high-fidelity knowledge base for improvements in the nondestructive testing of advanced composite material productscitations
- 2020Thermoformability characterisation of Flax reinforced polypropylene composite materialscitations
- 2019Understanding of Leading-Edge Protection Performance Using Nano-Silicates for Modificationcitations
- 2018Application of an arm-based FDM system for sandwich panel fabrication
- 2018Experimental and numerical investigation of full scale impact test on fibre-reinforced plastic sandwich structure for automotive crashworthiness
- 2018The Processing of a Novel Polymer Matrix for Wind Turbine Blades
- 2017Modern advances in bismaleimide resin technology:A 21st century perspective on the chemistry of addition polyimidescitations
- 2017The manufacture of honeycomb cores using Fused Deposition Modelingcitations
- 2017Improvement of the in-plane crushing response of CFRP sandwich panels by through-thickness reinforcementscitations
- 2017Improving the Performance of Tufted Composite Sandwich Structures
- 2017Modern advances in bismaleimide resin technologycitations
- 2017The Dibbercitations
- 2017The Dibber:Designing a standardised handheld tool for lay-up taskscitations
- 2017Initial Studies in the Characterisation of a Polymer Matrix for use in Composite Wind Turbine Blades
- 2017Developing a cost comparison technique for hand lay-up versus automated fibre placement and infusion versus out-of-autoclave
- 2017The Dibber: Designing a standardised handheld tool for lay-up taskscitations
- 2016Reclaiming in-process composite waste for use in energy absorbing sandwich structures
- 2016Automated layup of sheet prepregs on complex moulds
- 2016Hand lay-up of complex geometries-prediction, capture and feedback
- 2016Visualising process induced variations in the manufacture of tufted sandwich panels
- 2016Effects of automated patch placement on the mechanical performance of reformed NCF carbon fibre
- 2016Rate Dependance of Forming UD Prepreg Laminates
- 2015Studying effects of preshearing on hand layupcitations
- 2015Studying effects of preshearing on hand layupcitations
- 2015Towards the development of an instrumented test bed for tufting visualisation
- 2014A study of the pressure distribution in the hand layup and vacuum bagging processes
- 2014Preshearing
- 2013A status of acceptance criteria and process requirements in advanced composites manufacturing, and whether they are fit for purposecitations
- 2013NOVEL FLEXIBLE TOOLING TO ENHANCE LIQUID RESIN INFUSION MANUF-ACTURE FOR NET-SHAPED PREFORMS
- 2013On prepreg properties and manufacturability
- 2011Development of the manufacture of complex composite panels
- 2011Exploring the manual forming of complex geometry composite panels for productivity and quality gains in relation to automated forming capabilitiescitations
Places of action
| Organizations | Location | People |
|---|
article
Self-assembled microstructures with localized graphene domains in an epoxy blend and their related properties
Abstract
Locating nanoparticles in selected areas via the mixing of two immiscible polymers is widely studied for achieving nanocomposites with next-level performance, however, the formation of a phase-separated domain constructed with nanofillers from entirely miscible molecules is rarely achieved in the literature. Here we demonstrate a method to fabricate a self-constructed bi-continuous phase structure with localized amine-functionalized graphene nanoplatelets (A-GNPs) in a liquid processable multi-component epoxy blend. Atomic force microscopy infrared spectroscopy (AFM-IR) was employed to identify the compositions of the phase-separated microdomains formed during self-assembly by A-GNP in the multi-component epoxy blend, with incorporating 1-(2-aminoethyl) piperazine (AEPIP) found to be the driving force for the formation of the graphene microdomains. Nanoindentation measurements show that a Young’s modulus of 6.3 GPa for the graphene domain was achieved, which is nearly twice that of the epoxy resin (3.2 GPa). Transient thermoreflectance results indicate that the thermal conductivity of nanocomposite with phase-separated graphene domain reached 0.48 W/mK, exhibiting a significant enhancement (70%) when compared to epoxy resin, while maintaining excellent dielectric properties. Overall, this study provides a simple and effective route to fabricate phase-separated microstructure with nanoparticles from a liquid processable nanocomposite blend, which shows the great potential of this promising new approach to fabricate nanocomposite films with excellent performance for microelectronics applications.