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Tunneling Simulation
3D and 2D finite element simulations of deep tunnel advance: A numerical study on the Brenner Base Tunnel (M. Neuner, M. Schreter, P. Gamnitzer, G. Hofstetter; in Comput Geotech 119 (2020) 103355).
Investigation of Tensile Creep
of a Normal Strength Overlay Concrete. (Drexel, Martin; Theiner, Yvonne; Hofstetter, Günter; in: Materials 2018, 11, 993.)
Evaluation of the Implicit
Gradient-Enhanced Regularization of a Damage-Plasticity Rock Model. (Schreter Magdalena, Neuner Matthias, Hofstetter Günter; in: Applied Sciences. 2018; 8(6):1004.)
Versuche zum Schwinden und Kriechen
von Beton unter Berücksichtigung des Feuchtegehalts (Drexel, Martin; Theiner, Yvonne; Hofstetter, Günter; in: Bauingenieur - Ausgabe 03-2018, S. 95-102.)
Evolving yield surface
of the damage plasticity model for intact rock and rock mass during plastic hardening (Schreter, M. et al. "Application of a damage plasticity model for rock mass to the numerical simulation of tunneling". In: EURO:TUN 2017 / edited by: Hofstetter, G. et al. Innsbruck, 2017: 547.)
Multi-phase FE modelling
of pumping induced settlements (Gamnitzer, P. et al. "Fully coupled multi-phase modelling of pumping induced settlements, air- and water flow in multi-layered normally consolidated soils". In: Computers and Geotechnics 79 (2016) 10–21.)
Time-Dependent Material Properties
of Shotcrete: Experimental and Numerical Study (Neuner, M. et al.; in: Materials 10, no. 9 (2017): 1067.)
Pushover analysis
of a reinforced concrete frame; the colour scheme indicates the different degrees of damage (Azadi Kakavand, M. R. et al.; in: Bull Earthquake Eng (2018))
Modelling of coupled shrinkage and creep
in multiphase formulations of hardening concrete (P. Gamnitzer, A. Brugger, M. Drexel and G. Hofstetter. In: Materials 2019 12 1745)
Calibration of a multiphase model
based on a comprehensive data set for a normal strength concrete (P.Gamnitzer, M. Drexel, A. Brugger, G. Hofstetter. In: Materials 2019 12 791)