| | | |
| |
Completed BSc diplomas topics
| 1. | Study of a new technology to repair delamination in pseudo-ductile hybrid composites |
| The project aims to develop further the recently explored potential for reparability in pseudo-ductile hybrid composites, to maximise the repairing efficiency. The student will design and execute a parametric study to find the optimal repairing process parameters for recovering hybrid composites from delamination.
The student will practice composite manufacturing (e.g. prepreg processing in autoclave) and mechanical properties characterisation (e.g. tensile test). Also, the student will process and interpret the generated data and learn how to present them at a scientific level.
The language of the thesis and supervision is English. |
| | Lahmi Gal - 2021 |
| 2. | Study of the bonding between fibre reinforced epoxy and polyamide 12
|
| | Lirim Shaqiri - 2021 |
| 3. | Development of repairable interlaminar thermoset polymer based hybrid composites: Interleaving with thermoplastic films |
| The project aims to analyse the most common thermoplastics available in the market which have shown good chemical compatibility with epoxy-based matrices in fibre reinforced polymer composites. Ideally, the selected thermoplastic has to be used as healing agent in carbon/glass-epoxy hybrid composite to recover the material from damages generated by tensile loads, i.e. delamination, crack in the matrix.
|
| | Utku Ülker - 2020 |
| 4. | Repairability as an added function to pseudo-ductile hybrid composites |
| The aim of the project is to add a highly valuable extra function to pseudo-ductile hybrid composites to make them even more attractive for safety-critical structural applications. Repairability of high performance composites can extend the lifetime of expensive components while reducing waste.
The language of the thesis and supervision is English. |
| | Nagy Róbert - 2020 |
© 2014 BME Department of Polymer Engineering - Created by: Dr. Romhány Gábor
