SPP 2020 Research
Publikationen

Publikationen des SPP 2020

Zeitschriftenbeiträge

  • M. Pise, D. Brands, J. Schröder (2024): Development and calibration of a phenomenological material model for steel-fiber-reinforced high-performance concrete based on unit cell calculationsMaterials, 17(10).
  • M. Pise, J. Schröder, D. Brands, G. Gebuhr, S. Anders (2023): Phase-field modeling for fracture in steel fiber reinforced high performance concrete during low-cycle fatigueInternational Journal of Plasticity, Damage and Fracture, 1(1):1–11
  • Becks H, Aguilar M, Chudoba R et al. (2022): Characterization of high-strength concrete under monotonic and fatigue mode II loading with actively controlled level of lateral compressionMaterials and Structures 55(10)
    DOI: 10.1617/s11527-022-02087-4
  • (2022): Phase-field modeling of fracture in high performance concrete during low-cycle fatigue: numerical calibration and experimental validationComputer methods in applied mechanics and engineering, 398:115181
    DOI: doi.org/10.3390/ma15031179
  • G. Gebuhr, M. Pise, S. Anders, D. Brands, J. Schröder (2022): Damage evolution of steel fibre-reinforced high-performance concrete in low-cycle flexural fatigue: numerical modeling and experimental validationMaterials, 15(3):1179.
  • Baktheer A, Aguilar M, Chudoba R (2021): Microplane fatigue model MS1 for plain concrete under compression with damage evolution driven by cumulative inelastic shear strainInternational Journal of Plasticity 143
    DOI: 10.1016/j.ijplas.2021.102950
  • Becks H, Classen M (2021): Mode II Behavior of High-Strength Concrete under Monotonic, Cyclic and Fatigue LoadingMaterials 14(24): 7675
    DOI: 10.3390/ma14247675
  • Chudoba R, Vořechovský M, Aguilar M et al. (2021): Coupled sliding–decohesion–compression model for a consistent description of monotonic and fatigue behavior of material interfacesComputer Methods in Applied Mechanics and Engineering 398: 115259
    DOI: 10.1016/j.cma.2022.115259
  • Baktheer, A.; Aguilar, M.; Chudoba, R. (2021): Microplane fatigue model MS1 for plain concrete under compression with damage evolution driven by cumulative inelastic shear strainInternational Journal of Plasticity
    DOI: 10.1016/j.ijplas.2021.102950
  • 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.; 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
  • Oettel, V.; Lanwer, J.-P.; Empelmann, M. (2021): Auszugverhalten von Mikrostahlfasern aus UHPC unter monoton steigender und zyklischer Belastung.Bauingenieur 96, Nr. 01-02, S. 01-10
  • Rybczynski, S.; Schaan, G.; Dosta, M.; Ritter, M.; Schmidt-Döhl, F. (2021): Discrete Element Modeling and Electron Microscopy Investigation of Fatigue-Induced Microstructural Changes in Ultra-High-Performance ConcreteMaterials
    DOI: https://doi.org/10.3390/ma14216337
  • Schäfer, N.; Breitenbücher, R. (2020): Influence of Aggregate on Fatigue Behavior of High-Performance Concrete Under Cyclic LoadingProceedings of the fib Symposium 2020, Shanghai, China, pp. 781-787
  • T. Lochner, M. A. Peter (2020): Homogenization of linearized elasticity in a two-component medium with slip displacement conditionsJournal of Mathematical Analysis and Appllications, 483, 03/2020, 123648
    DOI: 10.1016/j.jmaa.2019.123648
  • Rybczyński, S.; Dosta, M.; Schaan, G.; Ritter, M.; Schmidt‐Döhl, F. (2020): Numerical study on the mechanical behavior of ultrahigh performance concrete using a three‐phase discrete element modelStructural Concrete, S. 1-16
    DOI: 10.1002/suco.202000435
  • 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
  • P. Carrara, M. Ambati, R. Alessi, L. De Lorenzis (2020): A framework to model the fatigue behavior of brittle materials based on a variational phase-field approachComputer Methods in Applied Mechanics and Engineering, Vol. 361
    DOI: https://doi.org/10.1016/j.cma.2019.112731
    ISSN: 0045-7825
  • Schaan, G.; Rybczynski, S.; Schmidt-Döhl, F.; Ritter, M. (2020): Fatigue of Concrete Examined on the Nanoscale. TEM Studies of Fatigue-induced Changes in the Cement Paste of UHPC.Imaging & Microscopy. 2/2020, S. 25-27 More info
  • M. Pise, D. Brands, G. Gebuhr, M. Sarhil, J. Schröder, S. Anders (2019): Elasto-plastic phase-field model for pullout tests of steel fiber embeddedin high-performance concrete: numerical calibration and experimental validationProceedings in Applied Mathematics and Mechanics. Vol. 1919(1):e201900255
  • V. Gudžulić, E. Neu, G. Gebuhr, S. Anders, G. Meschke (2019): Numerisches Mehrebenen-Modell für Stahlfaserbeton: Von der Faser- zur Strukturebene - Mehrstufige Validierung anhand einer experimentellen Studie an hochfestem FaserbetonBeton- und Stahlbetonbau
  • Schäfer, N.; Gudzulic, V.; Timothy, J. J.; Breitenbuecher, R.; Meschke, G. (2019): Fatigue behavior of HPC and FRC under cyclic tensile loading: Experiments and ModelingStructural Concrete 20, pp. 1265-1278
  • Carrara P, Ambati M, Alessi R, De Lorenzis L (2019): A novel framework to model the fatigue behavior of brittle materials based on a variational phase-field approach
    arXiv: 1811.02244
  • Lanwer, J.-P.; Oettel, V.; Empelmann, M.; Höper, S.; Kowalsky, U.; Dinkler, D. (2019): Bond behavior of micro steel fibers embedded in ultra-high performance concrete subjected to monotonic and cyclic loading.Structural Concrete 20 (2019), Heft 4, S. 1243-1253.
  • P. Lauff, O. Fischer (2019): Effizienter Ultrahochleistungsbeton mit innovativer trajektorienorientierter "Bewehrung".Festschrift zum Jubiläum 25 Jahre Professur und 60. Geburtstag von o.Univ.-Prof. Konrad Bergmeister, ce papers, Vol. 3/2019, pp. 82-88
  • O. Fischer, P. Lauff, N. Schramm (2019): Beton 4.0 - Moderne Hochleistungsbetone und additive Fertigung effizienter BetonbauteileTechnik in Bayern 05/2019, VDI Verlag
  • Harenberg, S., Pahn, M., Malarics-Pfaff, V., Dehn, F., Caggiano, A., Schicchi, D., Yang, S., Koenders, E. (2019): DIC strain measurement of UHPC-prisms under static and cyclic bending-tensile stressStructural Concrete, suco.201900033.R1, Under Review
  • Caggiano, A., Said Schicchi, D., Yang, S., Harenberg, S., Malarics-Pfaff, V., Pahn, M., Dehn, F. & Koenders, E. (2019): A microscale approach for modelling concrete fatigue damage-mechanismsKey Engineering Materials, accepted for p., IN PRESS.
    ISSN: 1662-9795
  • Caggiano et al. (2019): Constitutive models for low and high cycle fatigue of cementitious compositesMaterials - Open Access Journal, planned to be submitted by September 2019
  • F Aldakheel, B Hudobivnik, P Wriggers (2019): Virtual element formulation for phase-field modeling of ductile fractureInternational Journal for Multiscale Computational Engineering 17 (2), 181-200
  • B Hudobivnik, F Aldakheel, P Wriggers (2019): A low order 3D virtual element formulation for finite elasto–plastic deformationsComputational Mechanics 63 (2), 253-269
  • F Aldakheel, B Hudobivnik, P Wriggers (2019): Virtual elements for finite thermo-plasticity problemsComputational Mechanics
    DOI: 10.1007/s00466-019-01714-2
  • A Hussein, F Aldakheel, B Hudobivnik, P Wriggers, PA Guidault, O Allix (2019): A Computational framework for brittle crack propagation based on an efficient virtual element methodFinite Elements in Analysis and Design 159, 15-32
  • D Kienle, F Aldakheel, MA Keip (2019): A finite-strain phase-field approach to ductile failure of frictional materialsInternational Journal of Solids and Structures 172, 147-162
  • Tomann, C.; Oneschkow, N. (2019): Influence of moisture content in the microstructure on the fatigue deterioration of high-strength concreteStructural Concrete, Vol. 20, No. 4, Ernst & Sohn, 2019 (first online published 06 May 2019)
    DOI: 10.1002/suco.201900023
  • Fadi Aldakheel, Christoph Tomann, Ludger Lohaus and Peter Wriggers, (2019): Water-induced failure mechanics for concreteProceedings in Applied Mathematics and Mechanics
  • 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)
  • 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
  • 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
  • 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
  • Deutscher, M.; Tran, N.L.; Scheerer, S. (2019): Experimental Investigations on the Temperature - Increase of Ultra-High Performance Concrete under Fatigue LoadingAppl. Sci. 2019, 9, 4087.
  • Scheiden, T.; Oneschkow, N. (2019): Influence of coarse aggregate type on the damage mechanism in high-strength concrete under compressive fatigue loadingStructural Concrete, Vol. 20, No. 4, Ernst & Sohn, pp.1212 - 1219
    DOI: 10.1002/suco.201900029
  • 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
  • G. Gebuhr, M. Pise, M. Sarhil, S. Anders, D. Brands, J. Schröder (2019): Analysis and evaluation of single fibre pull-out behaviour of hooked steel fibres embedded in high performance concrete for calibration of numerical modelsStructural Concrete, 20(4):1254–1264
    DOI: 10.1002/suco.201900034
  • F Aldakheel, P Wriggers, C Miehe (2018): A modified Gurson-type plasticity model at finite strains: formulation, numerical analysis and phase-field couplingComputational Mechanics 62 (4), 815-833
  • F Aldakheel, B Hudobivnik, A Hussein, P Wriggers (2018): Phase-field modeling of brittle fracture using an efficient virtual element schemeComputer Methods in Applied Mechanics and Engineering 341, 443-466
  • 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
  • P. Lauff (2017): Carbonkurzfaserbeton - Eine neuartige Komposition mit gezielter Faserausrichtung beeindruckt durch signifikante Steigerung der ZugfestigkeitBeton- und Stahlbetonbau 112, 2017, Heft 7, p. 460

Konferenzbeiträge

  • J. Schröder, M. Pise, D. Brands (2023): Ein Phasenfeldmodell zur Berechnung der Ermüdung von faserverstärktem Hochleistungsbeton bei niedrigen ZyklenIn 27. Dresdner Baustatik Seminar - Realität - Modellierung - Tragwerksplanung. Institut für Statik und Dynamik der Tragwerke, Union Druckerei Dresden GmbH.
  • M. Pise, J. Schröder, D. Brands, G. Gebuhr, S. Anders (2023): Phase-field model for degradation of steel fiber reinforced ultra-high performance concrete during lowcycle fatigueIn S. Ray J. M. Chandra Kishen, A. Ramaswamy and R. Vidyasagar, editors, 11th International Conference on Fracture Mechanics of Concrete and Concrete Structures, pages 1–12.
  • M. Pise, G. Gebuhr, D. Brands, J. Schröder, S. Anders (2023): Phase-field modeling for failure behavior of reinforced ultra-high performance concrete at low cycle fatigueProceedings in Applied Mathematics and Mechanics, 23(1):e202300233
  • G. Gebuhr, S. Anders, M. Pise, D. Brands, J. Schröder. (2023): Approach for detection of fatigue phases using the example of high-performance concreteIn S. Ray J. M. Chandra Kishen, A. Ramaswamy and R. Vidyasagar, editors, 11th International Conference on Fracture Mechanics of Concrete and Concrete Structures, pages 1–12.
  • G. Gebuhr, M. A. Alvaro, M. Pise, S. Anders, M. Vicente, D. Brands, J. Schröder (2023): Predictive power of crack opening rate for flexural fatigue life of steel fiber-reinforced high and ultra-high performance concreteIn S. Ray J. M. Chandra Kishen, A. Ramaswamy and R. Vidyasagar, editors, 11th International Conference on Fracture Mechanics of Concrete and Concrete Structures, pages 1–12.
  • Aguilar M, Becks H, Baktheer A et al. (2022): Effect of lateral confinement on concrete fatigue life under shear loadingComputational Modelling of Concrete and Concrete Structures, 154-161.
  • J. Schröder, M. Pise, D. Brands, G. Gebuhr, S. Anders (2022): Phase-field modeling for damage in high performance concrete at low cycle fatigueIn A. Zingoni, editor, Current Perspectives and New Directions in Mechanics, Modelling and Design of Structural Systems: Proceedings of the Eigth International Conference on Structural Engineering, Mechanics and Computation (SEMC 2022), Cape Town, South Africa, pages 1297–1299. CRC Press, Oxon, United Kingdom.
  • M. Pise, D. Brands, J. Schröder, G. Gebuhr, S. Anders (2022): Phenomenological material model for damage in steel-fiber reinforced high performance concrete during low cycle fatigueProceedings in Applied Mathematics and Mechanics, 22(1):e202200236
  • M. Pise, D. Brands, J. Schröder, G. Gebuhr, S. Anders (2022): Macroscopic model based on application of representative volume element for steel fiber reinforced high performance concreteIn A. Zingoni, editor, Current Perspectives and New Directions in Mechanics, Modelling and Design of Structural Systems: Proceedings of the Eigth International Conference on Structural Engineering, Mechanics and Computation (SEMC 2022), Cape Town, South Africa, pages 1300–1306. CRC Press, Oxon, United Kingdom.
  • G. Gebuhr, M. Pise, S. Anders, D. Brands, J. Schröder (2022): Damage development of steel fibre reinforced high performance concrete in high-cycle fatigue testsIn A. Zingoni, editor, Current Perspectives and New Directions in Mechanics, Modelling and Design of Structural Systems: Proceedings of the Eigth International Conference on Structural Engineering, Mechanics and Computation (SEMC 2022), Cape Town, South Africa, pages 1327–1332. CRC Press, Oxon, United Kingdom
  • Aguilar M, Baktheer A, Chudoba R (2021): Numerical investigation of load sequence effect and energy dissipation in concrete due to compressive fatigue loading using the new microplane fatigue model MS1Proceedings of the 16th International Conference on Computational Plasticity, pp 1–12.
  • Becks H, Aguilar M, Baktheer A et al. (2021): Experimental and numerical investigations on the fatigue behavior of high-strength concrete under combined shear-compression loadingProceedings of IABSE Symposium: Challenges for Existing and Oncoming Structures, 532–540.
  • M. Pise, D. Brands, J. Schröder, G. Gebuhr, S. Anders (2021): Macroscopic model for steel fiber reinforced high performance concrete based on unit cell calculationsProceedings in Applied Mathematics and Mechanics, 21(1):e202100180
  • Patel R., Scheiden T., Hüpgen M., Rozanski C., Löhnert S., Oneschkow N. (2021): Simulating 3D crack propagation with XFEM to investigate failure mechanism in high strength concretePAMM 2021
    DOI: 10.1002/pamm.202000296
  • M. Pise, D. Brands, J. Schröder, G. Gebuhr, S. Anders (2020): On the application of representative volume elements for steel fiber reinforced high performance concrete - a numerical studyProceedings in Applied Mathematics and Mechanics, 20(1):e202000323
  • Storm, J.; Kaliske, M. (2020): Phase-field Fracture with Representative Crack Elements at Finite Deformations7th GAMM Workshop on Phase-Field Modeling, Kaiserslautern
  • M. Pise, D. Brands, G. Gebuhr, M. Sarhil, J. Schröder, S. Anders (2019): Numerical calibration of elasto-plastic phase-field modeling of fracture for experimental pullout tests of single steel fibres embedded in high-performance concreteProceedings of the Seventh International Conference on Structural Engineering, Mechanics and Computation (SEMC)
  • G. Gebuhr, M. Pise, M. Sarhil, S. Anders, D. Brands, J. Schröder (2019): Deterioration development of steel fibre reinforced high performance concrete in low-cycle fatigueProceedings of the Seventh International Conference on Structural Engineering, Mechanics and Computation (SEMC)
  • G. Gebuhr, M. Pise, M. Sarhil, S. Anders, D. Brands, J. Schröder (2019): Description and analyses of pull-out behaviour of hooked steel fibres embedded in high performance concrete using phase-field modelingDerkowski, W. et al. (Ed.): Proceedings of the fib Symposium 2019, 27.-29.05.2019 in Kraków (Polen), pp. 889-896 (full paper digital)
  • M. Pise, D. Brands, G. Gebuhr, M. Sarhil, J. Schröder, S. Anders (2019): Phase-field modeling of steel fiber reinforced high-performance concrete considering failureVI International Conference on Computational Modeling of Fracture and Failure of Materials and Structures, Braunschweig
  • M. Pise, D. Brands, G. Gebuhr, M. Sarhil, J. Schröder, S. Anders (2019): Elasto-plastic phase-field model for pullout tests of steel fiber embedded in high-performance concrete: numerical calibration and experimental validationAnnual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Wien
  • Schäfer, N.; Breitenbücher, R. (2019): Pull - Out tests of carbon and high-strength steel microfibres in a cement-based matrixDerkowski, W. et al. (Ed.): Proceedings of the fib Symposium 2019, 27.-29.05.2019 in Krakau (Polen), pp. 1888-1895 (full paper digital)
  • Gudžulić V., Timothy J.J., Schäfer N., Breitenbücher R., and Meschke G. (2019): Computational modeling of damage evolution in concrete due to cyclic loading. VI International Conference on Computational Modeling of Fracture and Failure of Materials and StructuresVI International Conference on Computational Modeling of Fracture and Failure of Materials and Structures, CFRAC 2019, 12.07. - 14.07.2019 in Braunschweig, Germany (Abstract)
  • Gudžulić, V., Timothy J.J.., and Meschke G. (2019): Computational modeling of damage evolution in short fibre-reinforced concrete due to cyclic loadingXV International Conference on Computational Plasticity. Fundamentals and Applications. COMPLAS 2019, 03.09. - 05.09. 2019, Barcelona, Spain (Abstract)
  • Ambati M, Carrara P, De Lorenzis L (2019): A phase-field approach to high cycle fatigue simulation.International conference on computational modeling of fracture and failure of materials and structures (CFRAC) - Braunschweig, Germany
  • Carrara P, Ambati M, Alessi R, De Lorenzis L (2019): Modeling of fatigue crack growth phenomena using the variational phase-field approach.CFRAC - Braunschweig, Germany
  • Ambati M, Carrara P, Alessi R, De Lorenzis L (2019): Phase-field modeling and simulation of fatigue phenomena in brittle materials.International association of applied mathematics and mechanics (GAMM) - Vienna, Austria
  • Carrara P, Ambati M, Alessi R, De Lorenzis L (2019): A new framework to simulate fatigue fracture in brittle materials.GAMM - Vienna, Austria
  • Ambati M, Carrara P, Alessi R, De Lorenzis L (2019): Phase-field modeling and simulation of fatigue phenomena in brittle materials.6th GAMM workshop on phase-field modeling - Karlsruhe, Germany
  • Carrara P, Ambati M, Alessi R, De Lorenzis L (2019): A variational phase-field approach to fatigue in brittle materials.BIRS workshop phase-field models of fracture - Banff, Canada
  • Carrara P, Ambati M, De Lorenzis L (2019): A variational phase-field framework to model fatigue effects.8th GACM colloquium on computational mechanics - Kassel, Germany
  • Rybczynski, S.; Dosta, M.; Schaan, G.; Ritter, M.; Schmidt-Döhl, F. (2019): DEM Simulation and electron microscopy analysis of the fatigue behavior of ultra-high performance concrete.Seventh Int. Conf. on Structural Engineering, Mechanics and Computation SEMC, 2.-4.9.2019, Cape Town, South Africa, ID 285
  • Rybczynski, S.; Dosta, M.; Schmidt-Döhl, F. (2019): DEM calibration for modelling of the fatigue behavior of ultra-high-performance concrete.90th Annual Meeting of the International Association of Applied Mathematics and Mechanics. GAMM 2019. 18.-22.2.2019, Wien, ID 233
  • Rybczynski, S.; Schaan, G.; Dosta, M.; Ritter, M.; Schmidt-Döhl, F. (2019): Experimental and numerical investigations of the fatigue behavior of ultra-high-performance-concrete.fib Symposium 2019, Concrete - Innovations in Materials, Design and Structures, Krakau, 27.-29.5.2019, ID 1220
    ISBN: 978-294064300-4
  • Schaan, G.; Rybczynski, S.; Ritter, M.; Schmidt-Döhl, F. (2019): Transmission electron microscopy investigations of fatigue-induced changes in the cement binder structure of ultra-high performance concreteMicroscopy Conference 2019, 2.-5.9.2019, Berlin. ID MS7.003
  • Schaan, G.; Rybczynski, S., Ritter, M.; Schmidt-Döhl, F. (2019): Transmission electron microscopy investigations of fatigue induced changes in the cement structure of ultra-high performance concrete.41st. Int. Conf. on Cement Microscopy 2019, 14.-17.4.2019, San Diego, USA.
  • Empelmann, M.; Oettel, V. und Lanwer, J.-P. (2019): Experimental investigations of UHPC, steel fibres and embedded steel fibres under cyclic tensile loadingProceedings of the International Conference on Sustainable Materials, Systems and Structures (SMSS2019) "Durability, Monitoring and Repair of Structures", Rovinj, Croatia, 20.-22.03.2019.
  • Lanwer, J.-P.; Oettel, V.; Empelmann, M.; Höper, S.; Kowalsky, U.; Dinkler, D. (2019): Degradation Processes of UHPFRC under Cyclic Tensile Loading.Derkowski, W. et al. (Ed.): Proceedings of the fib Symposium 2019, 27.-29.05.2019 in Krakau (Polen), S. 1912-1919 (full paper digital).
  • Höper, S.; Kowalsky, U.; Dinkler, D. (2019): Bond behaviour of steel microfibres embedded in UHPC.CFRAC Conference, Braunschweig, Germany, 2019, June 12th to 14th.
  • Höper, S.; Kowalsky, U.; Dinkler, D.; Lanwer, J.-P.; Oettel, V.; Empelmann, M. (2019): Experimental and numerical investigations of UHPFRC under cyclic tensile loading.Proceedings of the 7th International Conference on Structural Engineering, Mechanics and Computation (SEMC 2019) in Kapstadt, Südafrika, 02.-04.09.2019, S. 1462-1467.
  • M. Rutzen, D. Volkmer, L. Reischmann, U. Weiß, M. A. Peter, P. Lauff, O. Fischer, M. Raith, C. Große (2019): Microstructural analysis of crack growth caused by static and dynamic loads in a carbon fiber reinforced cement pasteInternational Conferences on Structural Engineering, Mechanics and Computation (SEMC), Cape Town
  • T. Wolfer; M. A. Peter (2019): Homogenization of linear elasticity with slip-displacement conditionsAnnual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Wien
  • T. Wolfer; M. A. Peter (2019): Homogenization of linear elasticity with slip-displacement conditionsInternational Conference on Elliptic and Parabolic Problems, Gaeta
  • P. Lauff, M. Raith, C. Große, M. Rutzen, D. Volkmer, L. Reischmann, U. Weiß, M. A. Peter, O. Fischer (2019): Investigation of Localized Damage Indicators of a Carbon Short-Fibre Reinforced High Performance Concrete under Dynamic and Flexural Loadfib Symposium 2019 "Concrete - Innovations in Materials, Design and Structures", Krakow
  • P. Lauff, M. Raith, C. Große, M. Rutzen, D. Volkmer, L. Reischmann, U. Weiß, M. A. Peter, O. Fischer (2019): Investigation of Localized Damage Indicators of a Carbon Short-Fibre Reinforced High Performance Concrete under Dynamic and Flexural LoadProceedings of the fib Symposium 2019 Concrete - Innovations in Materials, Design and Structures, pp. 1952-1959
    ISSN: 2617-4820
  • U. Weiß, L. Reischmann, P. Lauff, O. Fischer, M. Raith, C. Große, M. Rutzen, D. Volkmer, M. A. Peter (2019): A multiscale approach to localized damage indicators of a short-fibre reinforced high performance concreteVI International Conference on Computational Modeling of Fracture and Failure of Materials and Structures, Braunschweig
  • M. Rutzen, D. Volkmer, L. Reischmann, U. Weiß, M. A. Peter, P. Lauff, O. Fischer, M. Raith, C. Große (2019): Microstructural analysis of crack growth caused by static and dynamic loads in a carbon fiber reinforced cement pasteInternational Conferences on Structural Engineering, Mechanics and Computation (SEMC), Cape Town
  • Caggiano, A., Said Schicchi, D., Harenberg, S., Pahn, M., Dehn, F., and Koenders, E.A.B. (2019): A unified multiscale modelling approach for concrete fatigue with microscale damage-mechanism implementationsProceedings of 90th Annual Scientific Conference - GAMM 2019, February 18-22, Vienna, Austria
  • Tomann, C.; Lohaus, L. (2019): Influence of water in the microstructure on the fatigue deterioration of high-strength concreteProceedings of SEMC2019: The seventh international conference on structural engineering, mechanics and computation, Cape Town, South Africa, 02-04 September, 2019
  • Tomann, C.; Lohaus, L.; Aldakeel, F.; Wriggers, P. (2019): Influence of water-induced damage mechanisms on the fatigue deterioration of high-strength concreteProceedings of the fib Symposium 2019: CONCRETE - INNOVATIONS IN MATERIALS, DESIGN AND STRUCTURES, pp. 1944-1951, Krakow, Poland, 27-29 May, 2019
  • Fadi Aldakheel, Christoph Tomann, Ludger Lohaus and Peter Wriggers (2019): Water-induced failure mechanics for concrete: Micro-mechanical model, experimental observation and phase-field couplingInternational association of applied mathematics and mechanics (GAMM) - Vienna, Austria
  • Fadi Aldakheel, Peter Wriggers (2019): Water-induced failure mechanics for concreteInternational conference on computational modeling of fracture and failure of materials and structures (CFRAC) - Braunschweig, Germany
  • Fadi Aldakheel, Peter Wriggers (2019): Virtual Element Formulation For Phase­-Field Modeling of Brittle and Ductile FractureCOLLOQUIUM 600, NEW CHALLENGES IN FINITE ELEMENT TECHNOLOGY – FROM THE PERSPECTIVE OF MECHANICS AND MATHEMATICS, Aachen, Germany
  • F. Aldakheel, N. Noii , T. Wick and P. Wriggers (2019): An adaptive global-local approach for phase-field modeling of anisotropic brittle fracture2nd ECCOMAS Thematic Conference on Modern Finite Element Technologies Mathematical and Mechanical Aspects (MFET 2019), Bad Honnef, Germany
  • Karlo Seleš, Fadi Aldakheel, Nenad Gubeljak, Jurica Sorić, Zdenko Tonković and Peter Wriggers (2019): Phase-field model for high cycle fatigue life prediction of brittle materialsInternational conference on computational modeling of fracture and failure of materials and structures (CFRAC) - Braunschweig, Germany
  • F. Aldakheel, N. Noii , T. Wick and P. Wriggers (2019): An adaptive global-local approach for phase-field ductile fractureXV International Conference on Computational Plasticity. Fundamentals and Applications (COMPLAS 2019), Barcelona, Spain
  • 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
  • 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
  • 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, 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
  • Tran, N.L.; Deutscher M.; Scheerer, S. (2019): An investigation of the heat generated during cyclic loading of ultra-high performance concreteProceedings in Applied Mathematics and Mechanics (PAMM)
    DOI: 10.1002/pamm.201900469
  • Deutscher, M.; Tran, N.L.; Scheerer, S. (2019): Experimental investigation of load-induced temperature development in UHPC subjected to cyclic loadingProceedings of the 6th International fib Symposium, Krakow, Poland, 27–29 May 2019
  • Tran, N.L.; Deutscher, M.; Scheerer, S. (2019): Analysis of load-induced temperature development in UHPC under cyclic compressive loadingZingoni (Ed.) Advances in Engineering Materials, Structures and Systems: Innovations, Mechanics and Applications - Proceedings of the 7th International Conference on Structural Engineering (SEMC), Mechanics and Computation, Cape Town, South 2–4 Africa, September 2019.Taylor & Francis Group, London, 2019, p.1397-1402.
  • Deutscher, M.; Tran, N.L.; Scheerer, S. (2019): Experimental investigation of load-induced increase of temperature in UHPCZingoni (Ed.) Advances in Engineering Materials, Structures and Systems: Innovations, Mechanics and Applications - Proceedings of the 7th International Conference on Structural Engineering, Mechanics and Computation (SEMC), Cape Town, South 2–4 Africa, September 2019.Taylor & Francis Group, London, 2019, p.1450-1455.
  • Josef Sauer, Jana Musialak, Holger Steeb (2019): Characterizing High Performance Concrete in the Frequency DomainValidation Experiments GAMM 2019 / Proceedings in Applied Mathematics and Mechanics - 90th GAMM Annual Meeting – Wien
  • Markert, M., Birtel, V., Garrecht, H. (2019): Temperature and humidity induced damage processes in concrete due to pure compressive fatigue loadingProceedings of the fib Symposium, Krakow, 2019
  • Josef Sauer, Martin Markert, Jana Musialak, Veit Birtel, Holger Steeb, Harald Garrecht (2019): Experimental characterization of effective mechanical properties of (micro-) fractured high performance concreteSEMC 2019 (The Seventh International Conference on Structural Engineering, Mechanics and Computation) / SEMC, Cape Town, 2019
  • Markert, M., Birtel, V., Garrecht, H. (2019): Influence of concrete humidity on the temperature development under fatigue compressive loadingProceedings of the 7th International Conference of Euro Asia Civil Engineering Forum, Stuttgart, 2019
  • Scheiden, T.; Oneschkow, N.; Loehnert, S.; Patel, R. (2019): Fatigue damage of high-strength concrete with basalt aggregateProceedings of the fib Symposium 2019: Concrete - innovations in materials, design and structures, pp. 1896-1903, Krakow, Poland, 27-29 May, 2019
  • Scheiden, T.; Oneschkow, N.; Loehnert, S.; Patel, R. (2019): Acoustic emission due to fatigue damage mechanisms in high-strength concrete with different aggregatesProceedings of SEMC2019: The seventh international conference on structural engineering, mechanics and computation, Cape Town, South Africa, 02-04 September 2019
  • Patel R., Löhnert S. , Scheiden T., Oneschkow N. (2019): Investigation of Failure Mechanisms in High Strength Concrete using 3D-XFEMGAMM 2019 - Wien
  • Patel R., Löhnert S. , Scheiden T., Oneschkow N. (2019): Investigation of Failure Mechanisms in High Strength Concrete using 3D-XFEMVI International Conference on Computational Modeling of Fracture and Failure of Materials and Structures (CFRAC - 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
  • 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): 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
  • Steinke, C.; Yin, B.; Storm, J.; Kaliske, M. (2019): Phasefield models with anisotropy and dissipative features5th German-Japanese Workshop on Computational Mechanics, Dresden
  • M. Pise, D. Brands, G. Gebuhr, J. Schröder, S. Anders (2018): Analysis of pullout behavior of single steel fibers embedded in concrete using phase-field modelingAnnual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Munich
  • Gudžulić, V., Khisamitov, I., Timothy, J. J., and Meschke, G. (2018): Simulation‐based investigation of the influence of the micro‐structure and disorder on damage evolution in concretePAMM, 18(1)
  • Schäfer, N.; Przondziono, R.; Breitenbücher, R. (2018): Microstructural degradation in cementitious materials induced by cylic loading2nd Materials Chain International Conference, MCIC 2018, 12.11.-14.11.2018 in Bochum (Abstract Book)
  • Ambati M, Carrara P, Alessi R, Vidoli S, De Lorenzis L (2018): A phase-field model for the description of fatigue phenomena.5th GAMM workshop on phase-field modeling - Dresden, Germany
  • De Lorenzis L, Alessi R, Ambati M, Carrara P, Kruse R, Wu T (2018): Phase-field modeling and computation of fracture and fatigue.Plenary talk by Prof. Dr.-Ing. Laura De Lorenzis at GAMM - Münich, Germany
  • Ambati M, Carrara P, Alessi R, Vidoli S, De Lorenzis L (2018): A phase-field model for the description of fatigue phenomena.GAMM - Münich, Germany
  • De Lorenzis L (2018): Recent research results on the phase-field approach to fracture.Semi-plenary lecturer by Prof. Dr.-Ing. Laura De Lorenzis at 6th European conference on computational mechanics - Glassgow, UK
  • Carrara P, Ambati A, Alessi R, De Lorenzis L (2018): Simulation of Fatigue Crack Growth and Failure Using a Variational Phase-Field Model.13th World congress in computational mechanics - New York, USA
  • Carrara P, Ambati A, Alessi R, De Lorenzis L (2018): A phase-field model for brittle fatigue fracture.Current trends and open problems in computational solid mechanics - Hannover, Germany
  • Carrara P, Ambati A, Alessi R, De Lorenzis L (2018): A new variational phase-field framework to simulate fatigue Fracture.31st International workshop research in mechanics of composite - Bad Herrenalb, Germany
  • Schaan, G.; Li, L.; Ritter, M.; Schmidt-Döhl, F. (2018): Probing ultra-high performance concrete with advanced electron microscopy.19th Int. Microscopy Congress, 9.-14.9.2018, Sydney, Australien. ID 901
  • Schaan, G.; Li, L.; Ritter, M.; Schmidt-Döhl, F. (2018): Crack formation in Ultra High Performance Concrete investigated by electron microscopy.19th Int. Microscopy Congress, 9.-14.9.2018, Sydney, Australien. ID 901.
  • Höper, Svenja; Kowalsky, Ursula; Dinkler, Dieter (2018): Mikrophysikalisch begründete Modellierung der Verbundwirkung in faserbewehrtem Ultrahochleistungsbeton (UHPFRC) unter zyklischer Zugbeanspruchung.Jens Schneider und Nihat Kiziltoprak (Hg.): Forschungskolloquium 2018 Grasellenbach. Baustatik-Baupraxis e.V. Wiesbaden: Springer Fachmedien Wiesbaden, S. 35-36
  • Höper, Svenja; Kowalsky, Ursula; Dinkler, Dieter (2018): Micro‐structure related modelling of ultra‐high‐performance fibre reinforced concrete (UHPFRC) subjected to cyclic tensile loading.In: PAMM 18 (1), S. 1-4
    DOI: 10.1002/pamm.201800375
  • T. Wolfer; M. A. Peter (2018): Homogenization of linear elasticity with slip-displacement conditionsThird German-Russian-American Workshop on Numerical Methods and Mathematical Modelling in Geophysical and Biomedical Sciences, Herrsching am Ammersee
  • P. Lauff, O. Fischer (2018): Carbonfaserverstärkung kombiniert mit der ausrichtenden Wirkung des 3D-DrucksKongressunterlagen 62. BetonTage, BFT International Vol. 84, 02/2018, p. 96
  • P. Lauff, O. Fischer, N. Peppler (2018): Zum Trag- und Ermüdungsverhalten von im 3D-Druck hergestellten Carbon-Kurzfaserbeton mit hoher ZugfestigkeitBeiträge zur 6. DAfStb-Jahrestagung mit 59. Forschungskolloquium, pp. 103-113
  • P. Lauff, O. Fischer (2018): Hochdruck- und -zugfeste Betonbauteile durch 3D-druck und gerichtete Carbonkurzfasern - Herstellung und Versuche zum Tragverhalten und zur Ermüdung22. Münchener Massivbau Seminar, pp. 51-58
  • Harenberg, S., Caggiano, A., Koenig, A., Said, D., Gilka‐Bötzow, A., Schultz‐Cornelius, M., ... & Koenders, E. (2018): Micromechanical behavior of UHPC under cyclic bending‐tensile loading in consideration of the influence of the concrete edge zonePAMM, 18(1), e201800363
  • Fadi Aldakheel (2018): Virtual Elements For Engineering ApplicationsCOMMAS Graduation Ceremony 2018, Stuttgart, Germany
  • F Aldakheel, B Hudobivnik, P Wriggers (2018): Gradient­-Thermo­-Plasticity using an Efficient Virtual Element Method (VEM)9th International Congress of Croatian Society of Mechanics, Split, Croatia
  • 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
  • M. Pise, D. Brands, G. Gebuhr, J. Schröder, S. Anders (2018): Analysis of pullout behavior of single steel fibers embedded in concrete using phase-field modelingProceedings in Applied Mathematics and Mechanics, PAMM 18 (1)
    DOI: 10.1002/pamm.201800401
  • Alessi R, Ambati M, Vidoli S, De Lorenzis L (2017): Modeling fatigue phenomena with a variational phase-field approach.Keynote talk at 7th GACM colloquium on computational mechanics - Stuttgart, Germany
  • P. Lauff, O. Fischer, M. Rutzen, D. Volkmer (2017): Carbonkurzfaserbeton - Eine neuartige Komposition mit gezielter Faserausrichtung beeindruckt durch signifikante Steigerung der ZugfestigkeitBeiträge zur 5. DAfStb-Jahrestagung mit 58. Forschungskolloquium, 2017, pp. 121-133
    ISBN: 978-3-00-057267-8