The European Fellow (EF) has achieved theoretical breakthroughs through the analytical and numerical analysis of:
• new models characterising the failure of flexural and elastic structures describing the collapse of long span structures such as bridges, bridge decks, rooftops and pipeline systems.
• novel designs for new gyroscopic metamaterials, or advanced materials with a microstructure, for the purposes of vibration control and seismic protection for civil engineering structures.
The tools developed allow one to identify methods for avoiding failure of structured systems, providing methods for constructing stronger failure resistant materials and frame-like structures found in buildings.
This work has led to the completion of 12 publications (3 conference papers, 9 journal articles). The conference papers were presented at high impact meetings across Europe aimed at discussing new developments in the design of metamaterials. Journal articles have been published in high quality journals of engineering and mathematics with Green or Gold open access or stored in the research depository ArXiv.
In disseminating results related to the outputs, a total of 17 talks have been given at international conferences, workshops and seminars at other universities. The EF also discussed the work with the Italian public the “European Researcher’s Night” at the University of Cagliari. In connection with the project, a minisymposium on “Dynamic Failure and Phase Transition in Structured Media” was organised at ESMC 2018, Bologna, 2nd-6th July 2018, bringing together world experts designing advanced materials to discuss recent advances in analysing failure and vibration in metamaterials.
The Host Supervisor and the EF supervised highly skilled postgraduates and in educating the next-generation of researchers and the EF developed a short course for researchers working in the area of the project, delivered at the University of Cambridge. Accompanying this short course are lecture notes and slides that can be found at the project website (see
https://mjnieves.com(s’ouvre dans une nouvelle fenêtre)).
An industrial secondment with CAEMATE SRL (contact is M. Penasa, cofounder) allowed the EF to learn essential industrial skills in programming advanced numerical codes for the purposes of modelling failure in structured media. In future, the integration of this software into routines owned by CAEmate will provide engineers with fast and efficient software accessible online from any device and operating system. This software will enable these groups to use novel tools in constructing methods to control waves and failure mechanisms in structured systems.
For frequent and accessible information related to the dissemination of the outputs in the project, see the project website
https://mjnieves.com/project-cat-fflap/(s’ouvre dans une nouvelle fenêtre).