A6/I Strengthening of plane RC elements against impact on the impacted side
Various impact layers (from left to right): damping by a lot of material in a protective construction; Elastic, foam-like material of the shell protects the inner life of a fruit; Light honeycomb-like structure for energy dissipation in a sill
As far as the intended scope is concerned, the systematic treatment of the knowledge existing from nature and other disciplines is still lacking. In order to use this potential, the state of knowledge must be comprehensively prepared at the beginning of the project.
The mechanisms found are evaluated for their applicability to energy-absorbing strengthening layers for dynamic load scenarios relevant to construction. Based on this, adaptation and further development of selected variants and their experimental testing are accompanied by numerical simulation.
Contributors
© IMB
Doctoral Researcher
(2017-2020)
SAEID ZABIHI MOGHADDAM, M.S
Institute of concrete structures
Room 05-036
August-Bebel-Straße 30/30a
01219 Dresden
Germany
- saeid.zabihi_moghaddam@tu-dresden.de
- Institute
- +49 351 463 39677
- +49 351 463 37289
Principal Investigator
Univ.-Prof. Dr.-Ing. Dr.-Ing. E.h. Manfred Curbach
Institute of concrete structures
ABS, Floor 05, Room 009
August-Bebel-Straße 30/30A
01219 Dresden
Germany
- Manfred.Curbach@tu-dresden.de
- Institute
- +49 351 463 37660
- +49 351 463 37289
Principal Investigator
Dr.-Ing. Silke Scheerer
Institute of concrete structures
ABS, Floor 05, Room 012
August-Bebel-Straße 30/30A
01219 Dresden
Germany
- Silke.Scheerer@tu-dresden.de
- Institute
- +49 351 463 36527
- +49 351 463 37289
in cooperation with
Prof. Dr. Edeltraud Günther
Institute of Construction Materials
Von-Mises-Bau (VMB), Room 101A Georg-Schumann-Straße 7
01187 Dresden
Germany
- edeltraud.guenther@tu-dresden.de
- Institute
- +49 351 463 34313
- +49 351 463 37764
