B3/I Modeling textile reinforced components
B3/I Modeling textile reinforced components © Institute of Structural Analysis For the analysis of the behavior of reinforced concrete components under high-dynamic stress, practicable constitutive
Projects
Projects
B3/I Modeling textile reinforced components © Institute of Structural Analysis For the analysis of the behavior of reinforced concrete components under high-dynamic stress, practicable constitutive
B2/I Modelling fiber-matrix bond and mineral-bonded composites under impact loading The aim of this subproject is to make a numerical model of cement based composites
B1/I Multi-scale simulation of the anisotropic damping properties of fiber-reinforced concrete under impact loading © Institute of Construction Materials; Institute of Mechanics and Shell Structures
A6/I Strengthening of plane RC elements against impact on the impacted side © (left) Silke Scheerer; (middle) Manfred Curbach; (right) autokon.de/forschung Various impact layers (from
A5/I Strengthening of plane RC elements against impact on the impact-far side © Institute of Concrete Structures & M. Hering Backside of normal concrete slabs
A4/I Experimental characterization of the mechanical behavior of anisotropic and strain-hardening composites under impact loading © Institute of Construction Materials This part of the project
A3/I Development and characterization of hybrid-fiber reinforced composites for structural strengthening against impact loading © Institute of Construction Materials The project aims to elaborate a
A2/I Strain-rate dependent composite behavior of fiber reinforcement in mineral-based matrices © Leibniz Institute of Polymer Research Dresden From left to right: SEM image –
A1/I Development and evaluation of 3D reinforcing structures for structural strengthening against impact loading © Institute of Textile Machinery and High Performance Material Technology From