AERO-UA pilot project results presented at the IDTechEx Show
22.04.2019
Assistant Professor Maryna Shevtsova presented results from the AERO-UA pilot project in the field of aerostructures at the IDTechEx Show, which took place in Berlin during 10-11 April 2019.
The IDTechEx Show is an analyst-driven bi-annual event to promote and learn about emerging technologies, providing insight on their applications and latest technical and market progress. The IDTechEx Show allows the attendees to network across the value chains and exploit new opportunities at the intersection of these technologies.
The IDTechEx Show is an analyst-driven bi-annual event to promote and learn about emerging technologies, providing insight on their applications and latest technical and market progress. The IDTechEx Show allows the attendees to network across the value chains and exploit new opportunities at the intersection of these technologies.
Assistant Professor Maryna Shevtsova presenting during the IDTechEx Academic Poster session
Within one of the six AERO-UA pilot projects, National Aerospace University “KhAI”, University of Manchester and Frantsevich Institute for Problems of Materials Science of the National Academy of Science of Ukraine have jointly analysed the possibility to develop smart composite structures with a combination of highly conductive and totally non-conductive areas for the purposes of aircraft protection against lightning strike and ice accumulation as well as overall structural health monitoring.
During the IDTechEx Academic Poster session, Assistant Professor Maryna Shevtsova presented the AERO-UA partners’ achievements in multi-level modification and simulation-based prediction of electrical conductivity of polymer composites. The numerical results and experimental data demonstrate strong design potential to complex fabric architectures. For further details, please download a copy of the poster.
During the IDTechEx Academic Poster session, Assistant Professor Maryna Shevtsova presented the AERO-UA partners’ achievements in multi-level modification and simulation-based prediction of electrical conductivity of polymer composites. The numerical results and experimental data demonstrate strong design potential to complex fabric architectures. For further details, please download a copy of the poster.