Publikationen des Projekts Mechtcherine / Kaliske

Zeitschriftenbeiträge

  • Storm, J.; Pise, M.; Brands, D.; Schröder, J.; Kaliske, M. (2021): A comparative study of micro-mechanical models for fiber pullout behavior of reinforced high performance concreteEngineering Fracture Mechanics 243
    DOI: 10.1016/j.engfracmech.2020.107506
  • Yin, B.; Storm, J.; Kaliske, M. (2021): Viscoelastic phase-field fracture using the framework of representative crack elementsInternational Journal of Fracture (in press)
  • Storm, J.; Kaliske, M. (2020): Phase-field Fracture with Representative Crack Elements for Non-linear Material BehaviourProceedings in Applied Mathematics and Mechanics 20 (in press)
    DOI: 10.1002/pamm.202000207
  • J. Storm , M. Ranjbarian , V. Mechtcherine, Ch. Scheffler, M. Kaliske (2019): Modelling of fibre-reinforced composites via fibre super-elementsTheoretical and Applied Fracture Mechanics 103 (2019), 102294
    DOI: 10.1016/j.tafmec.2019.102294
  • M. Ranjbarian and V. Mechtcherine (2019): Influence of loading parameters in cyclic tension-compression regime on crack-bridging behaviour of PVA microfibres embedded in cement-based matrixConstruction and Building Materials, vol. 228, pp. 1–16
  • M. Ranjbarian, V. Mechtcherine, Z. Zhang, I. Curosu, J. Storm, and M. Kaliske (2019): Locking Front Model for pull-out behaviour of PVA microfibre embedded in cementitious matrixCement and Concrete Composites, vol. 103, pp. 318-330, 2019. 2)
  • Mueller, S, Ranjbarian, M, Mechtcherine, V. (2019): Fatigue behavior of strain‐hardening cement‐based composites - From the single fiber level to real‐scale applicationStructural Concrete. 2019; 1– 12.
    DOI: 10.1002/suco.201900032
  • Storm, J.; Supriatna, D.; Kaliske, M. (2019): The concept of representative crack elements for phase-field fractureAnisotropic elasticity and thermo-elasticity Int J Numer Methods Eng., 1-27
  • J. Storm, M. Kaliske (2018): A consistent multi-scale derivation of a micro-plane model within the framework of RVE homogenisationProceedings in Applied Mathematics and Mechanics
  • M. Ranjbarian, V. Mechtcherine (2018): A novel test setup for the characterization of bridging behaviour of single microfibres embedded in a mineral-based matrix

Konferenzbeiträge

  • Storm, J.; Kaliske, M. (2020): Phase-field Fracture with Representative Crack Elements at Finite Deformations7th GAMM Workshop on Phase-Field Modeling, Kaiserslautern
  • J. Storm, D. Supriatna, M. Kaliske (2019): On the analysis of crack-closure behaviour using the phase-field method together with the novel concept of Representative Crack ElementsProceedings in Applied Mathematics and Mechanics
  • J. Storm, M. Kaliske, M. Ranjbarian, V. Mechtcherine (2019): Modelling of fibre-reinforced concrete by a fibre super-element overlay meshProceedings of The Seventh International Conference on Structural Engineering, Mechanics and Computation
  • M. Ranjbarian and V. Mechtcherine (2019): Pilot investigation into crack bridging behaviour of different types of high-performance microfibres under reversed tension-compression loadingProceedings of the fib Symposium 2019, Concrete - Innovations in Materials, Design and Structures, 2019, pp. 121-128
  • M. Ranjbarian, V. Mechtcherine, J. Storm, and M. Kaliske (2019): Influence of fibre orientation on pull-out behaviour of PVA microfibre embedded in cement-based matrix under monotonic and cyclic loadingSEMC 2019: The seventh international conference on structural engineering, mechanics and computation
  • Steinke, C.; Yin, B.; Storm, J.; Kaliske, M. (2019): Phasefield models with anisotropy and dissipative features5th German-Japanese Workshop on Computational Mechanics, Dresden
  • Storm, J.; Supriatna, D.; Kaliske, M. (2019): Method of Representative Crack Elements for Phase-field Fracture with Finite Deformations and Dissipative Material BehaviourVI International conference on computational modelling of fracture and failure of materials and structures (CFRAC 2019), Braunschweig
  • Supriatna, D.; Storm, J.; Kaliske, M. (2019): An anisotropic phase-field model based on a Representative Crack Element (RCE)Proceedings of the 8th GACM Colloquium on Computational Mechanics, Kassel
  • Supriatna, D.; Storm, J.; Kaliske, M. (2019): Modelling of brittle fracture of concrete material by the phase-field approach and Representative Crack Elements (RCE)VI International conference on computational modelling of fracture and failure of materials and structures (CFRAC 2019), Braunschweig
  • M. Ranjbarian, V. Mechtcherine (2018): Cyclic Damage on PVA Microfibre Embedded in Cementitious Matrix in Alternating Tension-Compression Regime3rd FRC INTERNATIONAL WORKSHOP FIBRE REINFORCED CONCRETE, from Design to Structural Applications