Academic staff
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I gained my BSc in Mechanical Engineering at Guilan University, in 2013, and my MSc in Materials Science and Engineering at Kiel University, in 2017.
In 2019, I received a scholarship from Federal State Funding at Kiel University to start my PhD under the supervision of Prof. Gorb and co-supervision of Dr. Rajabi. During my PhD at Kiel University, I worked on the development of design strategies for adaptive functional structures inspired by insect wings. Such strategies are often low-cost and easy to implement in engineering applications. My PhD resulted in publication of three peer-reviewed journal articles and two patents.
I am currently working at the School of Engineering, London South Bank University. My main research is focused on Functional Engineering Structures inspired by Natural Design Strategies.
Guilan University
Kiel University
Kiel University
Funder | Year won | Project | Role |
---|---|---|---|
Royal Academy of Engineering | 2023 | Insect-inspired drones with enhanced flight and energetic efficiency | Principal Investigator |
Proposal | Project | Role | Funder | Status | Status last updated |
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Novel safety structures; enhanced durability through an insect-inspired damage-tolerance strategy | Novel safety structures; enhanced durability through an insect-inspired damage-tolerance strategy | Principal Investigator | Lloyd’s Register Foundation | OPEN Submitted | Nov 2023 |
Investigation of Ultrasonically Levitated Droplets for Sonochemistry with High-Speed Camera Observations
Aldahi, M., Khaheshi Hasankiadeh, A., Saif, N.B., Vasconez, J.F.Pr., Rajabi, H. and Harput, S. (2023). Investigation of Ultrasonically Levitated Droplets for Sonochemistry with High-Speed Camera Observations. 2023 IEEE International Ultrasonics Symposium (IUS). Montreal, QC, Canada 03 - 08 Sep 2023 IEEE. https://doi.org/10.1109/ius51837.2023.10307095
An insect-inspired asymmetric hinge in a double-layer membrane
Rajabi, H., Eraghi, S.H., Khaheshi, A., Toofani, A., Hunt, C. and Wootton, R.J. (2022). An insect-inspired asymmetric hinge in a double-layer membrane. Proceedings of the National Academy of Sciences. 119 (45), p. e2211861119. https://doi.org/10.1073/pnas.2211861119
Mechanical Intelligence (MI): A Bioinspired Concept for Transforming Engineering Design
Khaheshi Hasankiadeh, A. and Rajabi Jorshari, H. (2022). Mechanical Intelligence (MI): A Bioinspired Concept for Transforming Engineering Design. Advanced Science. https://doi.org/10.1002/advs.202203783