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Institute of Construction Materials

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Mineral-bonded composites for enhanced structural impact safety

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  • GRK 2250
  • Researchers
  • Projects
    • Research Projects of the first cohort
      • Projects overview
      • A1 Development and evaluation of 3D reinforcing structures for structural strengthening against impact loading
      • A2 Strain-rate dependent composite behavior of fiber reinforcement in mineral-based matrices
      • A3 Development and characterization of hybrid-fiber reinforced composites for structural strengthening against impact loading
      • A4 Experimental characterization of the mechanical behavior of anisotropic and strain-hardening composites under impact loading
      • A5 Strengthening of plane RC elements against impact on the impact-far side
      • A6 Strengthening of plane RC elements against impact on the impacted side
      • B1 Multi-scale simulation of the anisotropic damping properties of fiber-reinforced concrete under impact loading
      • B2 Modelling fiber-matrix bond and mineral-bonded composites under impact loading
      • B3 Modeling textile reinforced components
      • B4 Simulation of the failure of reinforced concrete structures under impact
      • C1 3D measurement techniques of fracture processes
      • C2 Analysis and assessment of the sustainability and resilience of reinforcement methods with new composites
      • PostDoc
    • Research Projects of the second cohort
      • Projects overview
      • A1/II Gradient 3D-reinforcing structures with integrated in-situ sensors
      • A2/II Fiber and interphase modification for energy adsorption at high strain rates
      • A3/II Sustainable mineral-bonded composites for structural impact safety – material design and application technology
      • A4/II Characterization of the shear resistance of mineral-bonded composites under impact loading
      • A5/II Strengthening on the rear side of flat, stirrup reinforced solid construction elements against impact
      • A6/II Characterization of mineral-bonded materials for damping layers for impact strengthening of flat solid construction elements
      • B1/II Multiscale simulation of the fracture behaviour of fiber-reinforced concrete under impact load
      • B3/II Mesomechanical modelling of hybrid reinforced concrete structures at impact loading
      • B4/II Failure simulation of structures at impact loading strengthened by mineral-bonded composite layers
      • C1/II Model-based photogrammetric 3D measurements in highly dynamic processes
      • C2/II Analysis and evaluation of the sustainability and resilience of reinforcement measures with novel mineral-bonded composites
      • C3 AI methods for the sustainable, synergetic use of the investigation results of GRK 2250 for the design and optimization of impact protection systems
      • PostDoc
  • Publications
  • Principal Investigators
  • International Experts
  • Associated Members
  • Events
    • Events overview
    • Fifth GRK 2250/1 Winter Workshop
    • Third GRK 2250/1 Summer School
    • Kick-Off Meeting of the Second Cohort
    • Fourth GRK 2250/1 Workshop
    • Second International GRK 2250/1 Summer School
    • Third GRK 2250/1 Workshop
    • First GRK 2250/1 Summer School
    • Second GRK 2250/1 Workshop
    • First GRK 2250/1 Workshop
    • Kick-Off Meeting of the First Cohort
  • Contact
  • About Dresden
  • GRK 2250
  • Researchers
  • Projects
    • Research Projects of the first cohort
      • Projects overview
      • A1 Development and evaluation of 3D reinforcing structures for structural strengthening against impact loading
      • A2 Strain-rate dependent composite behavior of fiber reinforcement in mineral-based matrices
      • A3 Development and characterization of hybrid-fiber reinforced composites for structural strengthening against impact loading
      • A4 Experimental characterization of the mechanical behavior of anisotropic and strain-hardening composites under impact loading
      • A5 Strengthening of plane RC elements against impact on the impact-far side
      • A6 Strengthening of plane RC elements against impact on the impacted side
      • B1 Multi-scale simulation of the anisotropic damping properties of fiber-reinforced concrete under impact loading
      • B2 Modelling fiber-matrix bond and mineral-bonded composites under impact loading
      • B3 Modeling textile reinforced components
      • B4 Simulation of the failure of reinforced concrete structures under impact
      • C1 3D measurement techniques of fracture processes
      • C2 Analysis and assessment of the sustainability and resilience of reinforcement methods with new composites
      • PostDoc
    • Research Projects of the second cohort
      • Projects overview
      • A1/II Gradient 3D-reinforcing structures with integrated in-situ sensors
      • A2/II Fiber and interphase modification for energy adsorption at high strain rates
      • A3/II Sustainable mineral-bonded composites for structural impact safety – material design and application technology
      • A4/II Characterization of the shear resistance of mineral-bonded composites under impact loading
      • A5/II Strengthening on the rear side of flat, stirrup reinforced solid construction elements against impact
      • A6/II Characterization of mineral-bonded materials for damping layers for impact strengthening of flat solid construction elements
      • B1/II Multiscale simulation of the fracture behaviour of fiber-reinforced concrete under impact load
      • B3/II Mesomechanical modelling of hybrid reinforced concrete structures at impact loading
      • B4/II Failure simulation of structures at impact loading strengthened by mineral-bonded composite layers
      • C1/II Model-based photogrammetric 3D measurements in highly dynamic processes
      • C2/II Analysis and evaluation of the sustainability and resilience of reinforcement measures with novel mineral-bonded composites
      • C3 AI methods for the sustainable, synergetic use of the investigation results of GRK 2250 for the design and optimization of impact protection systems
      • PostDoc
  • Publications
  • Principal Investigators
  • International Experts
  • Associated Members
  • Events
    • Events overview
    • Fifth GRK 2250/1 Winter Workshop
    • Third GRK 2250/1 Summer School
    • Kick-Off Meeting of the Second Cohort
    • Fourth GRK 2250/1 Workshop
    • Second International GRK 2250/1 Summer School
    • Third GRK 2250/1 Workshop
    • First GRK 2250/1 Summer School
    • Second GRK 2250/1 Workshop
    • First GRK 2250/1 Workshop
    • Kick-Off Meeting of the First Cohort
  • Contact
  • About Dresden
Menu
  • GRK 2250
  • Researchers
  • Projects
    • Research Projects of the first cohort
      • Projects overview
      • A1 Development and evaluation of 3D reinforcing structures for structural strengthening against impact loading
      • A2 Strain-rate dependent composite behavior of fiber reinforcement in mineral-based matrices
      • A3 Development and characterization of hybrid-fiber reinforced composites for structural strengthening against impact loading
      • A4 Experimental characterization of the mechanical behavior of anisotropic and strain-hardening composites under impact loading
      • A5 Strengthening of plane RC elements against impact on the impact-far side
      • A6 Strengthening of plane RC elements against impact on the impacted side
      • B1 Multi-scale simulation of the anisotropic damping properties of fiber-reinforced concrete under impact loading
      • B2 Modelling fiber-matrix bond and mineral-bonded composites under impact loading
      • B3 Modeling textile reinforced components
      • B4 Simulation of the failure of reinforced concrete structures under impact
      • C1 3D measurement techniques of fracture processes
      • C2 Analysis and assessment of the sustainability and resilience of reinforcement methods with new composites
      • PostDoc
    • Research Projects of the second cohort
      • Projects overview
      • A1/II Gradient 3D-reinforcing structures with integrated in-situ sensors
      • A2/II Fiber and interphase modification for energy adsorption at high strain rates
      • A3/II Sustainable mineral-bonded composites for structural impact safety – material design and application technology
      • A4/II Characterization of the shear resistance of mineral-bonded composites under impact loading
      • A5/II Strengthening on the rear side of flat, stirrup reinforced solid construction elements against impact
      • A6/II Characterization of mineral-bonded materials for damping layers for impact strengthening of flat solid construction elements
      • B1/II Multiscale simulation of the fracture behaviour of fiber-reinforced concrete under impact load
      • B3/II Mesomechanical modelling of hybrid reinforced concrete structures at impact loading
      • B4/II Failure simulation of structures at impact loading strengthened by mineral-bonded composite layers
      • C1/II Model-based photogrammetric 3D measurements in highly dynamic processes
      • C2/II Analysis and evaluation of the sustainability and resilience of reinforcement measures with novel mineral-bonded composites
      • C3 AI methods for the sustainable, synergetic use of the investigation results of GRK 2250 for the design and optimization of impact protection systems
      • PostDoc
  • Publications
  • Principal Investigators
  • International Experts
  • Associated Members
  • Events
    • Events overview
    • Fifth GRK 2250/1 Winter Workshop
    • Third GRK 2250/1 Summer School
    • Kick-Off Meeting of the Second Cohort
    • Fourth GRK 2250/1 Workshop
    • Second International GRK 2250/1 Summer School
    • Third GRK 2250/1 Workshop
    • First GRK 2250/1 Summer School
    • Second GRK 2250/1 Workshop
    • First GRK 2250/1 Workshop
    • Kick-Off Meeting of the First Cohort
  • Contact
  • About Dresden

Contact

Contact Ms. Martina Awassi

Coordination Office

Ms Martina Awassi

Send Email
TU Dresden Institute of Construction Materials 01062 Dresden, Germany
Tel.+49 351 46336311
Fax+49 351 46337268
grk2250@tu-dresden.de
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Contact Univ.-Prof. Dr.-Ing. Viktor Mechtcherine
© Ulrich van Stipriaan

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Univ.-Prof. Dr.-Ing. Viktor Mechtcherine

Send Email

TU Dresden
Institute of Construction Materials
01062 Dresden, Germany

Tel.+49 351 46336311
Fax+49 351 46337268
mechtcherine@​tu-dresden.de
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