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Obrzud, R., Hartmann, S., Podleś, K. (2016). Selected aspects of designing deep excavations. Studia Geotechnica et Mechanica, 38.ObrzudR.HartmannS.PodleśK.2016Selected aspects of designing deep excavationsStudia Geotechnica et Mechanica3810.1515/sgem-2016-0024Search in Google Scholar
Truty, A., Podleś, S. (2010). Application of Hardening Soil-small model for analysis of soil-structure interaction problems (in Polish). Czasopismo Techniczne, 1, 117-134.TrutyA.PodleśS.2010Application of Hardening Soil-small model for analysis of soil-structure interaction problems (in Polish)Czasopismo Techniczne1117134Search in Google Scholar
Lee, J., Fenves, G.L. (1998). Plastic-damage model for cyclic loading of concrete structures. Journal of Engineering Mechanics, 124, 892-900.LeeJ.FenvesG.L1998Plastic-damage model for cyclic loading of concrete structuresJournal of Engineering Mechanics12489290010.1061/(ASCE)0733-9399(1998)124:8(892)Search in Google Scholar
Lee, J., Fenves, G.L. (2001). A return-mapping algorithm for plastic-damage models: 3-D and plane stress formulation. IJNME, 50, 487-506.LeeJ.FenvesG.L2001A return-mapping algorithm for plastic-damage models: 3-D and plane stress formulationIJNME5048750610.1002/1097-0207(20010120)50:2<487::AID-NME44>3.0.CO;2-NSearch in Google Scholar
Truty, A. (2016). Elastic-plastic damage model for concrete. Technical Report, ZSoil.PC 160102, January.TrutyA.2016Elastic-plastic damage model for concreteTechnical Report, ZSoil.PC 160102JanuarySearch in Google Scholar
Schanz, T. (1998). Zur Modellierung des mechanischen Verhaltens von Reinbungsmaterialien. In Mitt. Inst. für Geotechnik 45. Universitat Stuttgart, Stuttgart.SchanzT.1998Zur Modellierung des mechanischen Verhaltens von ReinbungsmaterialienMitt. Inst. für Geotechnik 45.Universitat StuttgartStuttgartSearch in Google Scholar
Schanz, T., Vermeer, P.A., Bonier, P.G. (1999). Formulation and verification of the Hardening Soil Model. In Beyond 2000 in Computational Geotechnics. Balkema, Rotterdam.SchanzT.VermeerP.ABonierP.G1999Formulation and verification of the Hardening Soil ModelBeyond 2000 in Computational Geotechnics.BalkemaRotterdamSearch in Google Scholar
Benz, T. (2006). Small-strain stiffness of soils and its numerical consequences. Ph.D. Thesis, University of Stuttgart.BenzT.2006Small-strain stiffness of soils and its numerical consequencesPh.D. ThesisUniversity of StuttgartSearch in Google Scholar
Truty, A., Obrzud, R. (2015). Improved formulation of the Hardening Soil model in the context of modeling the undrained behavior of cohesive soils. Studia Geotechnica et Mechanica, 37, 61-68.TrutyA.ObrzudR.2015Improved formulation of the Hardening Soil model in the context of modeling the undrained behavior of cohesive soilsStudia Geotechnica et Mechanica37616810.1515/sgem-2015-0022Search in Google Scholar
Obrzud, R., Truty, A. (2010). The hardening soil model: A practical guidebook. Technical Report Technical report ZSoil.PC 100701, ZACE Ltd, Lausanne.ObrzudR.TrutyA.2010The hardening soil model: A practical guidebookTechnical Report Technical report ZSoil.PC 100701ZACE LtdLausanneSearch in Google Scholar
Lubliner, J., Oliver, J., Oller, S., Oñate, E. (1989). A plastic-damage model for concrete. International Journal of Solids and Structures, 25(3), 299-326.LublinerJ.OliverJ.OllerS.OñateE.1989A plastic-damage model for concreteInternational Journal of Solids and Structures25329932610.1016/0020-7683(89)90050-4Search in Google Scholar
Oller, S., Oñate, E., Oliver, J., Lubliner, J. (1990). Finite element nonlinear analysis of concrete structures using a plastic-damage model. Engineering Fracture Mechanics, 35, 219-231.OllerS.OñateE.OliverJ.LublinerJ.1990Finite element nonlinear analysis of concrete structures using a plastic-damage modelEngineering Fracture Mechanics3521923110.1016/0013-7944(90)90200-ZSearch in Google Scholar
Truty, A., Zimmermann, Th. (2015). Modified Lee-Fenves plastic-damage model for concrete. In Numerics in Geotechnics. Elmepress Ltd., Lausanne, Switzerland.TrutyA.ZimmermannTh.2015Modified Lee-Fenves plastic-damage model for concreteNumerics in Geotechnics.Elmepress Ltd.Lausanne, SwitzerlandSearch in Google Scholar
Havlásek, P. (2014). Creep and shrinkage of concrete subjected to variable environmental conditions. Ph. D. Thesis, Czech Technical University in Prague.HavlásekP.2014Creep and shrinkage of concrete subjected to variable environmental conditionsPh. D. ThesisCzech Technical University in PragueSearch in Google Scholar
Truty, A., Podleś, K. (2016). Influence of diaphragm wall installation in overconsolidated sandy clays on in situ stress disturbance and resulting deformations. Annals of Warsaw University of Life Sciences – SGGW Land Reclamation, 48, 243-253.TrutyA.PodleśK.2016Influence of diaphragm wall installation in overconsolidated sandy clays on in situ stress disturbance and resulting deformationsAnnals of Warsaw University of Life Sciences – SGGW Land Reclamation4824325310.1515/sggw-2016-0019Search in Google Scholar
