Publications of the project Anders / Schröder / Brands

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 calculations,  Materials, 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 fatigue,  International Journal of Plasticity, Damage and Fracture, 1(1):1–11

(2022): Phase-field modeling of fracture in high performance concrete during low-cycle fatigue: numerical calibration and experimental validation,  Computer 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 validation,  Materials, 15(3):1179.

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 models,  Structural Concrete, 20(4):1254–1264
DOI: 10.1002/suco.201900034

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 validation,  Proceedings 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 Faserbeton,  Beton- und Stahlbetonbau

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 concrete,  In 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, S. Anders, M. Pise, D. Brands, J. Schröder. (2023): Approach for detection of fatigue phases using the example of high-performance concrete,  In 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.

J. Schröder, M. Pise, D. Brands (2023): Ein Phasenfeldmodell zur Berechnung der Ermüdung von faserverstärktem Hochleistungsbeton bei niedrigen Zyklen,  In 27. Dresdner Baustatik Seminar - Realität - Modellierung - Tragwerksplanung. Institut für Statik und Dynamik der Tragwerke, Union Druckerei Dresden GmbH.

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 fatigue,  Proceedings in Applied Mathematics and Mechanics, 23(1):e202300233

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 fatigue,  In 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. Pise, S. Anders, D. Brands, J. Schröder (2022): Damage development of steel fibre reinforced high performance concrete in high-cycle fatigue tests,  In 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

J. Schröder, M. Pise, D. Brands, G. Gebuhr, S. Anders (2022): Phase-field modeling for damage in high performance concrete at low cycle fatigue,  In 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 fatigue,  Proceedings 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 concrete,  In 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.

M. Pise, D. Brands, J. Schröder, G. Gebuhr, S. Anders (2021): Macroscopic model for steel fiber reinforced high performance concrete based on unit cell calculations,  Proceedings in Applied Mathematics and Mechanics, 21(1):e202100180

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 study,  Proceedings in Applied Mathematics and Mechanics, 20(1):e202000323

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 fatigue,  Proceedings 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 modeling,  Derkowski, 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): Numerical calibration of elasto-plastic phase-field modeling of fracture for experimental pullout tests of single steel fibres embedded in high-performance concrete,  Proceedings of the Seventh International Conference on Structural Engineering, Mechanics and Computation (SEMC)

M. Pise, D. Brands, G. Gebuhr, M. Sarhil, J. Schröder, S. Anders (2019): Phase-field modeling of steel fiber reinforced high-performance concrete considering failure,  VI 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 validation,  Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Wien

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 modeling,  Proceedings in Applied Mathematics and Mechanics, PAMM 18 (1)
DOI: 10.1002/pamm.201800401

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 modeling,  Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Munich