RUB Research School RUB Comp-Eng RUB RD SME RUB AGES SFB 837 FOR 1498 ASCE - EMI SPP 1886 EURO-C 2018

Veröffentlichungen


Wissenschaftliche Veröffentlichungen in Zeitschriften (21.01.2018 09:01)

[1] M. Obel, A. Marwan, A. Alsahly, S. Freitag, P. Mark, and G. Meschke. Schadensbewertungskonzepte für innerstädtische Bauwerke bei maschinellen Tunnelvortrieben. Bauingenieur, page in print, 2018.
[2] G. Meschke. From advance exploration to real time steering of tbms: A review on pertinent research in the collaborative research center "interaction modeling in mechanized tunneling". Underground Space, 2018. in print.
[3] I. Khisamitov and G. Meschke. Variational approach to interface element modeling of brittle fracture propagation. Computer Methods in Applied Mechanics and Engineering, 328(1):452-476, 2018. in print.
[4] F. Hegemann, U. Maidl, G. Meschke, J. Ninic, and J. Stascheit. Building information modelling im maschinellen schildvortrieb - ein praxisorientierter blick in die nńhere zukunft. Geomechanik und Tunnelbau, 2018. in print.
[5] T.S. Dang and G. Meschke. A shear-slip mesh update - immersed boundary finite element model for computational simulations of material transport in epb tunnel boring machines. Finite Element in Analysis and Design, 2018. in print.
[6] A. Leon Bal, T.S. Dang, and G. Meschke. A particle finite element model for the simulation of cutting tool-soil interaction using hypoplasticity. Computers and Geotechnics, 2018. submitted.
[7] M.-M. Zhou and G. Meschke. A multiscale homogenization model for strength predictions of fully and partially frozen soils. Acta Geotechnica, 2017. [ DOI ]
[8] Y. Zhan and G. Meschke. Adaptive crack modeling with interface solid elements for plain and fiber reinforced concrete structures. Materials, Special Issue "Computational Mechanics of Cohesive-Frictional Materials", 10(7):771, 2017. online http://www.mdpi.com/1996-1944/10/7/771/html.
[9] J. J. Timothy, T. Iskhakov, Y. Zhan, and G. Meschke. Strain-Hardening Cement-Based Composites (RILEM Bookseries 15), volume 15, chapter A multiscale model for high performance FRC, pages 97-105. Springer, september 2017. [ DOI ]
[10] J.J. Timothy and G. Meschke. Effective diffusivity of porous materials with an isotropic and anisotropic distribution of microcracks - self-similar mean-field homogenization and pixel finite element simulations. Transport in Porous Media, 2017. submitted.
[11] J. J. Timothy and G. Meschke. The intrinsic permeability of microcracks in porous solids: Analytical models and lattice boltzmann simulations. International Journal for Numerical and Analytical Methods in Geomechanics, 41(8):1138-1154, 2017. [ DOI | http ]
[12] J.J. Timothy and G. Meschke. Cascade continuum micromechanics model for the effective permeability of solids with distributed microcracks: Self-similar mean-field homogenization and image analysis. Mechanics of Materials, 104:60-72, 2017. [ DOI ]
[13] R. Przondziono, J. J. Timothy, F. Weise, E. Kr├╝tt, R. Breitenb├╝cher, G. Meschke, and M. Hoffman. Degradation in concrete structures due to cyclic loading and its effect on transport processes. Structural Concrete, 2017. [ DOI ]
[14] J. Ninić and G. Meschke. Simulation based evaluation of time-variant loadings acting on tunnel linings during mechanized tunnel construction. Engineering Structures, 135:21-40, 2017. [ DOI ]
[15] D. Leonhart, J.J. Timothy, and G. Meschke. Cascade continuum micromechanics model for the effective permeability of solids with distributed microcracks. Comparison with numerical homogenization. Mechanics of Materials, 115:64-75, 2017. [ DOI ]
[16] I. Khisamitov and G. Meschke. Variational interface zone model for modeling of fluid induced fracture propagation. PAMM, 2017. submitted.
[17] V. Gudzulic, T.S. Dang, and G. Meschke. Computational modeling of fiber flow during casting of fresh concrete. Computational Mechanics, 2017. submitted.
[18] S. Freitag, B.T. Cao, J. Ninic, and G. Meschke. Recurrent neural networks and proper orthogonal decomposition with interval data for real-time predictions of mechanised tunnelling processes. Computers and Structures, 2017. in press. [ DOI ]
[19] T.S. Dang, N. Wessels, N.S. Nguyen, K. Hackl, and G. Meschke. A coupled computational approach for the simulation of soil excavation and transport in earth-pressure balance shield machines. Journal of Multiscale Computational Engineering, 15:239-264, 2017.
[20] S. Butt, J.J. Timothy, and G. Meschke. Wave dispersion and propagation in state-based peridynamics. Computational Mechanics, 60(5):725-738, 2017.
[21] S. Butt and G. Meschke. Wave dispersion and propagation in a linear peridynamic solid. PAMM, 2017. submitted.
[22] A. Alsahly, C. Callari, and G. Meschke. An algorithm based on incompatible modes for the global tracking of strong discontinuities in shear localization analyses. Computer Methods in Applied Mechanics and Engineering, 330:33-63, 2017.
[23] Y. Zhan and G. Meschke. Multilevel computational model for failure analysis of steel-fiber-reinforced concrete structures. Journal of Engineering Mechanics (ASCE), 142(11):04016090(1-14), 2016. [ DOI ]
[24] J. J. Timothy, Y. Zhan, and G. Meschke. A micromechanics model for frc composites. PAMM, 16(1):543-544, 2016. [ DOI ]
[25] J. J. Timothy and G. Meschke. Modeling the effective permeability of microcracked materials using continuum and lattice micromechanics. PAMM, 16(1):555-556, 2016. [ DOI ]
[26] J.J. Timothy and G. Meschke. Effective diffusivity of microcracked porous solids: Continuum micromechanics and computational homogenization. International Journal of Solids and Structures, 2016. in review.
[27] J. J. Timothy and G. Meschke. Cascade lattice micromechanics model for the effective permeability of materials with microcracks. Journal of Nanomechanics and Micromechanics (ASCE), 6(4):04016009, 2016. [ DOI ]
[28] J. J. Timothy and G. Meschke. A cascade continuum micromechanics model for the elastic properties of porous materials. International Journal of Solids and Structures, 83:1-12, 2016. [ DOI ]
[29] J. J. Timothy and G. Meschke. A micromechanics model for molecular diffusion in materials with complex pore structure. International Journal for Numerical and Analytical Methods in Geomechanics, 40(5):686-712, 2016. [ DOI ]
[30] T.Q. Thai, T. Rabczuk, Y. Bazilevs, and G. Meschke. A higher-order stress-based gradient-enhanced damage model based on isogeometric analysis. Computer Methods in Applied Mechanics and Engineering, 304:584-604, 2016. [ DOI | http ]
[31] A. Marwan, M.-M. Zhou, M. Zaki, and G. Meschke. Optimization of artificial ground freezing in tunneling in the presence of seepage flow. Computers and Geotechnics, 75:112-125, 2016.
[32] M. Marjanovic, G. Meschke, and D. Vuksanovic. A finite element model for propagating delamination in laminated composite plates based on the virtual crack closure method. Composite Structures, 150:8-19, 2016. [ DOI ]
[33] S. Freitag, B.T. Cao, and G. Meschke. Surrogate modelling for real-time predictions of mechanised tunnelling processes with interval data. Proceedings in Applied Mathematics and Mechanics, 16:35-38, 2016. [ DOI ]
[34] F. Cazes, G. Meschke, and M.M. Zhou. Strong discontinuity approaches: An algorithm for robust performance and comparative assessment of accuracy. International Journal for Solids and Structures, 96:355-379, 2016.
[35] B.T. Cao, S. Freitag, and G. Meschke. A hybrid RNN-GPOD surrogate model for real-time settlement predictions in mechanised tunnelling. Advanced Modeling and Simulation in Engineering Sciences, 3(5):1-22, 2016. [ DOI | http ]
[36] A. Alsahly, J. Stascheit, and G. Meschke. Advanced finite element modeling of excavation and advancement processes in mechanized tunneling. Advances in Engineering Software, 100:198 - 214, 2016. [ DOI ]
[37] Jithender J Timothy and G. Meschke. Cascade continuum micromechanics model for the effective diffusivity of porous materials: Exponential hierarchy across cascade levels. Proceedings in Applied Mathematics and Mechanics, 15(1):471-472, 2015.
[38] R. Przondziono, J.J. Timothy, M. Nguyen, F. Weise, R. Breitenbücher, G. Meschke, and B. Meng. Vorschädigung in Beton infolge zyklische Beanspruchungen und deren Auswirkungen auf Transportprozesse im hinblick auf eine schädigende AKR. Beton und Stahlbetonabu, 110(1):3-12, 2015.
[39] J. Ninić and G. Meschke. Model update and real-time steering of tunnel boring machines using simulation-based meta models. Tunnelling and Underground Space Technology, 45:138-152, 2015.
[40] G. Meschke and D. Leonhart. A generalized finite element method for hydro-mechanically coupled analysis of hydraulic fracturing problems using space-time variant enrichment functions. Computer Methods in Applied Mechanics and Engineering, 290:438 - 465, 2015.
[41] M. Marjanovic, D. Vuksanovic, and G. Meschke. Geometrically nonlinear transient analysis of delaminated composite and sandwich plates using a layerwise displacement model with contact conditions. Composite Structures, 122:67-81, 2015. [ DOI ]
[42] A. Kutlu, G. Meschke, and M.H. Omurtag. A new mixed finite element approach for the elasto-plastic analysis of mindlin plates. Engeneering Mathematics, pages 1-19, 2015. online since 15.12.2015. [ DOI ]
[43] S. Freitag, B. T. Cao, J. Ninić, and G. Meschke. Hybrid surrogate modelling for mechanised tunnelling simulations with uncertain data. International Journal of Reliability and Safety, 9(2-3):154-173, 2015. Special Issue on Reliability and Computations of Infrastructures. [ DOI | http ]
[44] M.-M. Zhou and G. Meschke. Strength homogenization of matrix-inclusion composites using the linear comparison composite approach. International Journal of Solids and Structures, 51:259-273, 2014. [ http ]
[45] Y. Zhan and G. Meschke. Analytical model for the pullout behavior of straight and hooked-end steel fibers. Journal of Engineering Mechanics (ASCE), 140(12):04014091(1-13), 2014. [ DOI ]
[46] T. Putke, F. Song, Y. Zhan, P. Mark, R. Breitenbücher, and G. Meschke. Development of hybrid steel-fibre reinforced concrete tunnel lining segments - experimental and numerical analyses from material to structural level. Bauingenieur, 89:447-456, 2014. in German.
[47] J. Ninić, J. Stascheit, and G. Meschke. Beam-solid contact formulation for finite element analysis of pile-soil interaction with arbitrary discretization. International Journal for Numerical and Analytical Methods in Geomechanics, 38(14):1453-1476, 2014.
[48] G. Meschke, S. Freitag, A. Alsahly, J. Ninić, S. Schindler, and C. Koch. Numerische Simulation maschineller Tunnelvortriebe in innerstädtischen Gebieten im Rahmen eines Tunnelinformationsmodells. Bauingenieur, 89(11):457-466, 2014.
[49] G. Meschke, S. Freitag, A. Alsahly, J. Ninić, S. Schindler, and C. Koch. Numerische Simulation maschineller Tunnelvortriebe in innerstädtischen Gebieten im Rahmen eines Tunnelinformationsmodells. Bauingenieur, 89(11):457-466, 2014.
[50] T.S. Dang and G. Meschke. An ALE-PFEM method for the numerical simulation of two-phase mixture flow. Computer Methods in Applied Mechanics and Engineering, 278:599-620, 2014.
[51] R. Breitenbücher, G. Meschke, F. Song, and Y. Zhan. Experimental, analytical and numerical analysis of the pullout behaviour of steel fibres considering different fibre types, inclinations and concrete strengths. Structural Concrete, 15:126-135, 2014.
[52] M.-M. Zhou and G. Meschke. A three-phase THM coupled FE model for freezing soils. International Journal for Numerical and Analytical Methods in Geomechanics, 37(18):3173-3193, 2013. 10.1002/nag.2184.
[53] G. Meschke, J. Ninić, J. Stascheit, and A. Alsahly. Parallelized computational modeling of pile-soil interactions in mechanized tunneling. Engineering Structures, 47:35 - 44, 2013. Invited paper for Special Issue Computational Mechanics.
[54] F. Cazes and G. Meschke. An edge-based smoothed fem (es-fem) for 3d analysis of solid mechanics problems. International Journal for Numerical Methods in Engineering, 94(8):715-739, 2013.
[55] F. Cazes and G. Meschke. An imbricate finite element method (i-fem) using full, reduced, and smoothed integration. Computational Mechanics, 52:993-1021, 2013.
[56] R. Grytz, I.A. Sigal, J.W. Ruberti, G. Meschke, and J.C. Downs. Lamina cribrosa thickening in early glaucoma predicted by a microstructure motivated growth and remodeling approach. Mechanics of Materials, 44:99-109, January 2012.
[57] F. Cazes and G Meschke. An edge-based imbricate finite element method (ei-fem) with full and reduced integration. Computers and Structures, 106-107:154-175, 2012.
[58] M.-M. Zhou and G. Meschke. Numerical modelling of coupling mechanisms during freezing in porous materials. Proceedings in Applied Mathematics and Mechanics (PAMM), 11(1):495-496, December 2011. Article first published online : 9 DEC 2011, DOI: 10.1002/pamm.201110239.
[59] J. J. Timothy and G. Meschke. Micromechanics model for tortuosity and homogenized diffusion properties of porous materials with distributed micro-cracks. Proceedings in Applied Mathematics and Mechanics (PAMM), 11(1):555-556, December 2011.
[60] D. Leonhart and G. Meschke. Extended finite element method for hygro-mechanical analysis of crack propagation in porous materials. Proceedings in Applied Mathematics and Mechanics, 11(1):161-162, December 2011. Article first published online : 9 DEC 2011, DOI: 10.1002/pamm.201110072.
[61] F. Nagel, J. Stascheit, and G. Meschke. Numerical simulation of interactions between the shield supported tunnel construction process and the response of soft, water saturated soils. International Journal of Geomechanics (ASCE), 12(6):689-696, 2011.
[62] F. Nagel and G. Meschke. Grout and bentonite flow around a TBM: Numerical simulations addressing its impact on surface settlements. Tunnelling and Underground Space Technology incorporating Trenchless Technology Research, 26:445-452, 2011.
[63] G. Meschke, F. Nagel, and J. Stascheit. Computational simulation of mechanized tunneling as part of an integrated decision support platform. Journal of Geomechanics (ASCE), 11(6):519-528, 2011. Special Issue: Material and Computer Modeling.
[64] G. Meschke, D. Leonhart, J. J. Timothy, and M.-M. Zhou. Computational mechanics of multiphase problems - modeling strategies at different scales. Computer Assisted Mechanics and Engineering Sciences, 18:73-89, 2011. Invited paper for Special Issue.
[65] J.J. Timothy, J. Kruschwitz, and G. Meschke. Determination of homogenized diffusion properties in micro-cracked porous materials. Proceedings in Applied Mathematics and Mechanics, 10(1):429-430, 2010. [ http ]
[66] F. Nagel, J. Stascheit, and G. Meschke. Process-oriented numerical simulation of shield tunneling in soft soils. Geomechanics and Tunnelling, 3(3):268-282, 2010.
[67] F. Nagel and G. Meschke. An elasto-plastic three phase model for partially saturated soil for the finite element simulation of compressed air support in tunnelling. International Journal for Numerical and Analytical Methods in Geomechanics, 34:605-625, 2010. doi:10.1002/nag.828.
[68] J.H. Hommel and G. Meschke. A hybrid modeling concept for ultra low cycle fatigue of metallic structures based on micropore damage and unit cell models. International Journal of Fatigue, 32(12):1885-1894, 2010. [ DOI ]
[69] R. Grytz, G. Meschke, and J.B. Jonas. The collagen fibril architecture in the lamina cribrosa and peripapillary sclera predicted by a computational remodeling approach. Biomechanics and Modeling in Mechanobiology, 2:225-235, 2010.
[70] C. Becker, S. Jox, and G. Meschke. 3D higher-order X-FEM model for the simulation of cohesive cracks in cementitious materials considering hygro-mechanical couplings. Computer Modeling in Engineering and Sciences, 57(3):245-276, 2010.
[71] M.-M. Zhou, F. Nagel, J. Kruschwitz, and G. Meschke. A two-phase finite element model for coupled heat flux and water flow in fully saturated soils. Proceedings in Applied Mathematics and Mechanics, 9(1):391-392, December 2009.
[72] F. Nagel, J. Stascheit, and G. Meschke. A simulation model for shield tunnelling and its interactions with partially saturated soil. Proceedings of Applied Mathematics and Mechanics, 9(1):215-216, December 2009.
[73] R. Grytz and G. Meschke. A computational re-modeling approach to predict the physiological architecture of the collagen fibril network in corneo-scleral shells. Biomechanics and Modeling in Mechanobiology, 9(2):225-235,, 2009.
[74] R. Grytz and G. Meschke. Constitutive modeling of crimped collagen fibrils in soft tissues. Journal of the Mechanical Behaviour of Biomedical Materials, 2:522-533, 2009.
[75] C. Becker, S. Jox, and G. Meschke. Anisotropic and field-specific higher order spatial discretization methods for multiphase durability analyses. Computers & Structures, 87(21-22):1439-1359, 2009.
[76] F. Nagel, J. Stascheit, and G. Meschke. A simulation model for shield tunnelling with compressed air. Geomechanics and Tunneling, 1(3):222-228, 2008.
[77] J.H. Hommel and G. Meschke. EAS-concept for higher order shell elements to avoid volume locking. International Journal for Numerical Methods in Engineering, 75:1416-1434, 2008.
[78] R. Grytz and G. Meschke. Consistent micro-macro transitions at large objective strains in curvilinear convective coordinates. International Journal for Numerical Methods in Engineering, 73:805-824, 2008. [ .pdf ]
[79] F. Nagel and G. Meschke. Three-phase modeling in partially saturated soils. Proceedings in Applied Mathematics and Mechanics, 7(1):4070009-4070010, 2007.
[80] G. Meschke and P. Dumstorff. Energy-based modeling of cohesive and cohesionless cracks via X-FEM. Computer Methods in Applied Mechanics and Engineering, 196:2338-2357, 2007.
[81] D. Kuhl and G. Meschke. Numerical analysis of dissolution processes in cementitious materials using discontinuous and continuous Galerkin time integration schemes. International Journal for Numerical Methods in Engineering, 69:1775-1803, 2007. [ .pdf ]
[82] P. Dumstorff and G. Meschke. Crack propagation criteria in the framework of X-FEM-based structural analyses. International Journal for Numerical and Analytical Methods in Geomechanics, 31:239-259, 2007. [ .pdf ]
[83] T. Kasper and G. Meschke. A numerical study on the effect of soil and grout material properties and cover depth in shield tunnelling. Computers & Geotechnics, 33(4-5), 2006. 234-247.
[84] T. Kasper and G. Meschke. On the influence of face pressure, grouting pressure and TBM design in soft ground tunnelling. Tunnelling and Underground Space Technology, 21(2):160-171, 2006.
[85] J. Hommel and G. Meschke. Application of the EAS-concept to a p-version of the finite shell formulation to avoid volumetric locking. Zeitschrift für angewandte Mechanik und Mathematik, ZAMM, 5(1):411-412, December 2005. [ .pdf ]
[86] T. Kasper and G. Meschke. Numerische Untersuchungen zu den Wechselwirkungen bei Schildvortrieben im Lockergestein. Bauingenieur, 80:413-421, September 2005. [ .pdf ]
[87] O. Kintzel and G. Meschke. Anisotropic elasto-plastic damage formulation for finite strains using a damage structural tensor and the effective stress concept. Zeitschrift für angewandte Mechanik und Mathematik, ZAMM, 5(1):301-302, 2005.
[88] S. Grasberger and G. Meschke. Thermo-hygro-mechanical degradation of concrete: From coupled 3D material modelling to durability-oriented multifield structural analyses. Materials and Structures, 37:244-256, May 2004. Special Issue on Poromechanis of Concrete. [ .pdf ]
[89] J. Mosler and G. Meschke. Embedded cracks vs. smeared crack models: A comparison of elementwise discontinuous crack path approaches with emphasis on mesh bias. Computer Methods in Applied Mechanics and Engineering, 193:3351-3375, 2004. (invited paper, Special issue on Computational Failure Mechanics). [ .pdf ]
[90] D. Kuhl, F. Bangert, and G. Meschke. Coupled chemo-mechanical deterioration of cementitious materials. Part 2: Numerical methods and simulations. International Journal for Solids and Structures, 41:41-67, 2004.
[91] D. Kuhl, F. Bangert, and G. Meschke. Coupled chemo-mechanical deterioration of cementitious materials. Part 1: Modeling. International Journal for Solids and Structures, 41:15-40, 2004.
[92] T. Kasper and G. Meschke. Finite Elemente Simulation maschineller Tunnelvortriebe. Geotechnik, 27(2):178-181, 2004.
[93] T. Kasper and G. Meschke. A 3D finite element model for TBM tunneling in soft ground. International Journal for Numerical and Analytical Methods in Geomechanics, 28:1441-1460, 2004.
[94] F. Bangert, D. Kuhl, and G. Meschke. Chemo-hygro-mechanical modeling and numerical simulation of concrete deterioration caused by alkali-silica reaction. International Journal for Numerical and Analytical Methods in Geomechanics, 28:689-714, 2004. (invited paper, Special Issue on Computational Modelling of Concrete Structures). [ .pdf ]
[95] J. Mosler and G. Meschke. 3D modeling of strong discontinuities in elastoplastic solids: Fixed and rotating localization formulations. International Journal for Numerical Methods in Engineering, 57:1553-1576, 2003.
[96] G. Meschke and S. Grasberger. Numerical modelling of coupled hygro-mechanical degradation of cementitious materials. American Society of Civil Engineers - Engineering Mechanics, 129(4):383-392, 2003. [ .pdf ]
[97] G. Meschke and S. Grasberger. Gekoppelte numerische Analysen trocknungs- und lastinduzierter Sch"adigung von Betonstrukturen. Beton und Stahlbetonbau, 98(4):226-235, 2003. [ .pdf ]
[98] W.N. Liu, G. Meschke, and H.A. Mang. Algorithmic stabilization of FE analyses of 2D frictional contact problems with large slip. Computer Methods in Applied Mechanics and Engineering, 192(16-18):2099-2124, 2003. [ .pdf ]
[99] S. Grasberger, M. Neumann, and G. Meschke. Numerische Dauerhaftigkeitsanalysen von Betonstrukturen am Beispiel einer Tunnelinnenschale. Bauingenieur, 78(9):411-421, 2003. [ .pdf ]
[100] S. Grasberger, F. Bangert, D. Kuhl, and G. Meschke. Numerical modelling of environmentally induced deterioration of concrete. Restoration of Buildings and Monuments, 9(3):264-283, 2003. [ .pdf ]
[101] J. Eberhardsteiner, G. Hofstetter, G. Meschke, and P. Helnwein. Coupled material modelling and multifield structural analyses in civil engineering. Engineering Computations, 20(5-6):524-558, 2003. [ .pdf ]
[102] C. Becker, J-H. Hommel, and G. Meschke. Finite elements in shell analysis: A comparison of 3D-p- and higher order shell elements. Proceedings of Applied Mathematics and Mechanics, 3(1):250-251, 2003. [ .pdf ]
[103] F. Bangert, S. Grasberger, D. Kuhl, and G. Meschke. Environmentally induced deterioration of concrete: Physical motivation and numerical modeling. Engineering Fracture Mechanics, 70:891-910, 2003. [ .pdf ]
[104] T. Huemer, W.N. Liu, J. Eberhardsteiner, H.A. Mang, and G. Meschke. Sliding behavior of rubber on snow and concrete surfaces. Kautschuk Gummi Kunststoffe, 54(9):458-462, September 2001. [ .pdf ]
[105] S. Grasberger and G. Meschke. A coupled thermo-hygro-mechanical material model for concrete. Zeitschrift für angewandte Mechanik und Mathematik, ZAMM, 81(2):391-392, 2001.
[106] G. Meschke W.N. Liu and H.A. Mang. Re-analyses of tests on soil-like specimen by means of elasto-viscoplastic models. Zeitschrift für angewandte Mechanik und Mathematik, ZAMM, 80:537-538, 2000.
[107] W.N. Liu, G. Meschke, and H.A. Mang. On the approximation of the tangential slip in frictional contact analyses. Computers and Structures, 78:53-62, 2000.
[108] P. Pivonka, G. Meschke, and H.A. Mang. 3D Materialmodell für Beton: Theorie und algorithmische Formulierung. Zeitschrift für angewandte Mechanik und Mathematik, ZAMM, 79(2):475-476, 1999.
[109] G. Meschke and W.N. Liu. A re-formulation of the exponential algorithm for finite strain plasticity in terms of Cauchy stresses. Computer Methods in Applied Mechanics and Engineering, 173:167-187, 1999.
[110] G. Meschke, Th. Huemer, and H. Mang. Computer-aided retrofitting of a damaged RC cooling tower shell. American Society of Civil Engineers - Structural Engineering, 125(3):328-337, 1999.
[111] H.J. Payer, G. Meschke, and H.A. Mang. Geometrisch nichtlineare 2D FE-Kontaktanalysen kantiger, deformierbarer Körper. Zeitschrift für Angewandte Mathematik und Mechanik, 78:657-658, 1998.
[112] G. Meschke, R. Lackner, and H.A. Mang. An anisotropic elastoplastic-damage model for plain concrete. International Journal for Numerical Methods in Engineering, 42:703-727, 1998.
[113] R. Mundl, G. Meschke, and W. Liederer. Friction mechanism of tread blocks on snow surfaces. Tire Science and Technology, 25(4):245-264, 1997.
[114] G. Meschke, H.J. Payer, and H.A. Mang. 3D simulations of automobile tires: Material modelling, mesh generation and solution strategies. Tire Science and Technology, 25(3):154-177, 1997.
[115] G. Meschke and W.N. Liu. A study on the significance of the chosen stress measure in finite strain plasticity. Zeitschrift für angewandte Mechanik und Mathematik (ZAMM), 77:S219-S220, 1997.
[116] G. Meschke, R. Lackner, and H.A. Mang. An anisotropic material model for cracked concrete based on plasticity- and damage theory. Zeitschrift für angewandte Mechanik und Mathematik (ZAMM), 77:S217-S218, 1997. [ .pdf ]
[117] G. Meschke, C.H. Liu, and H.A. Mang. Finite element modelling of snow. Journal of Egineering Mechanics (ASCE), 122(7):591-602, 1996.
[118] G. Meschke, W.N. Liu, C.H. Liu, and H.A. Mang. Numerical simulations of the traction mechanism of rubber blocks moving on snow. Zeitschrift für angewandte Mechanik und Mathematik (ZAMM), 76:335-336, 1996.
[119] G. Meschke, Ch. Kropik, and H.A. Mang. Numerical analyses of tunnel linings by means of a viscoplastic material model for shotcrete. International Journal for Numerical Methods in Engineering, 39:3145-3162, 1996.
[120] G. Meschke. Consideration of aging of shotcrete in the context of a 3D viscoplastic material model. International Journal for Numerical Methods in Engineering, 39:3123-3143, 1996.
[121] G. Meschke and S. Welscher. A modified 3D rotating crack model. Zeitschrift für Angewandte Mathematik und Mechanik, 75:233-S244, 1995.
[122] G. Meschke and C.H. Liu. A modificationn of the cam-clay plasticity model at large strains: Computational aspects and applications to FE-analysis of snow. Zeitschrift für Angewandte Mathematik und Mechanik, 75:201-S202, 1995.
[123] C.H. Liu, G. Meschke, P. Helnwein, and H.A. Mang. Tying algorithm for linking of finite element meshes with different degrees of refinement: Application to finite element analyses of tires. Computer Assisted Mechanics and Engineering Sciences, 2:289-305, 1995.
[124] T. Huemer, C. Kropik, H.A. Mang, and G. Meschke. Repair of a cracked cooling tower shell based on numerical simulations. Bulletin of the International Association for Shell and Spatial Structures, pages 117-124, 1994.
[125] J.C. Simo and G. Meschke. A new class of algorithms for classical plasticity extended to finite strains. Application to geomaterials. Computational Mechanics, 11:253-278, 1993. [ .pdf ]
[126] G. Meschke and P. Helnwein. Large-strain 3D-analysis of fibre-reinforced composites using rebar elements: Hyperelastic formulations for cords. Computational Mechanics, 13(4):241-254, 1993. [ .pdf ]
[127] P. Helnwein and G. Meschke. On 1D-hyperelastic material formulations. Zeitschrift für angewandte Mathematik und Mathematik, 74(6):T704-T705, 1993.
[128] P. Helnwein, C.H. Liu, G. Meschke, and H.A. Mang. A new 3D finite element model of cord-reinforced rubber composites. Application to analyses of automobile tires. Finite Elements in Analysis and Design, 14:1-16, 1993.
[129] G. Meschke, H. Mang, and P. Kosza. Finite element analyses of cracked cooling tower shell. Journal of Structural Engineering (ASCE), 117(9):2620-2639, 1991.
[130] H.A. Mang and G. Meschke. Nonlinear finite element analysis of reinforced and prestressed concrete structures. Engineering Structures, 13(2):211-226, 1991.
[131] G. Meschke and H. Mang. Vergleichendes konstitutives Modellieren dreiachsial beanspruchten Betons auf der Grundlage elasto-plastischer Stoffgesetze. Zeitschrift für Angewandte Mathematik und Mechanik, 68:T221-T224, 1988.


Wissenschaftliche Veröffentlichungen in Tagungsbänden (21.01.2018 09:01)

[1] J. Reinold, S. Beckhuis, and G. Meschke. Numerical investigation of hydraulic fracturing and borehole interaction under deep reservoir conditions using xfem. In Proceedings of the 7th GACM Colloquium on Computational Mechanics for Young Scientists from Academia and Industry, Stuttgart, Germany, October 2017.
[2] M. Smarslik, G. Neu, P. Mark, and G. Meschke. Robust reinforcement layout for segmental tunnel lining under partial area loading using hybrid topology optimization. In G. Hofstetter, K. Bergmeister, J. Eberhardsteiner, G. Meschke, and H.F. Schweiger, editors, Proceedings of the 4th International Conference on Computational Methods in Tunneling and Subsurface Engineering (EURO:TUN 2017), pages 321-328. Innsbruck (Austria), April 2017.
[3] G. Meschke, A. Alsahly, V.E. Gall, G. Neu, and Y. Zhan. Numerische Mehrebenensimulation segmentierter Tunnelschalen aus Faserbeton. In G. Meschke, S. Freitag, C. Birk, J. M. Menkenhagen, and T. Ricken, editors, Baustatik-Baupraxis 13. Ruhr Universit├Ąt Bochum, 2017.
[4] G. Meschke and J. Timothy. Numerische Mehrskalen- und Mehrphasenmodelle f├╝r beton unter ber├╝cksichtigung von Vorsch├Ądigung. In Beton - Herausforderungen in Forschung und Praxis, pages 306-317, 2017. Festschrift zum 60. Geburtstag von R. Breitenb├╝cher.
[5] G. Meschke and J.J. Timothy. Numerische Mehrskalen- und Mehrphasenmodelle f├╝r Beton unter Ber├╝cksichtigung von Vorsch├Ądigung. In Festschrift Prof. R. Breitenb├╝cher zum 60. Geburtstag, 2017.
[6] Tagir Iskhakov, Jithender J. Timothy, and G├╝nther Meschke. Multiscale model of asr-induced damage in concrete. In Proceedings of the 7th GACM Colloquium on Computational Mechanics for Young Scientists from Academia and Industry, Stuttgart, Germany, 2017.
[7] V. Gudzulic, T.S. Dang, and G. Meschke. Computational modeling of fiber flow during casting of fresh concrete. In Proceedings of the 7th GACM Colloquium on Computational Mechanics for Young Scientists from Academia and Industry, 2017.
[8] S. Freitag, K. Kremer, M. Hofmann, and G. Meschke. Numerical design of reinforced concrete structures under polymorphic uncertain conditions. In C. Bucher, B.R. Ellingwood, and D.M. Frangopol, editors, Safety, Reliability, Risk, Resilience and Sustainability of Structures and Infrastructure, Proceedings of the 12th International Conference on Structural Safety and Reliability (ICOSSAR 2017), pages 1535-1542, Vienna, 2017.
[9] T.S. Dang and G. Meschke. Computational model for the simulation of material transport in epb tunnel boring machines. In G. Hofstetter, K. Bergmeister, J. Eberhardsteiner, G. Meschke, and H.F. Schweiger, editors, Proceedings of the 4th International Conference on Computational Methods in Tunneling and Subsurface Engineering (EURO:TUN 2017). University Innsbruck, 2017.
[10] B.T. Cao, S. Freitag, and G. Meschke. Real-time fuzzy analysis of machine driven tunneling. In M. Papadrakakis, V. Papadopoulos, and G. Stefanou, editors, Proceedings of the 2nd ECCOMAS Thematic Conference on Uncertainty Quantification in Computational Sciences and Engineering (UNCECOMP 2017), pages paper 17151, 1-10, Rhodes Island, 2017.
[11] C. Callari, A. Alsahly, and G. Meschke. Predicting stand-up time of the tunnel face using 3d numerical simulations. In Proceedings of the World Tunneling Congress, 2017.
[12] S. Butt and G. Meschke. A 3d peridynamic model of rock cutting with tbm disc cutters. In M. von Scheven, M. Keip, and N. Karajan, editors, Proceedings of the 7th GACM Colloquium on Computational Mechanics for Young Scientists from Academia and Industry, pages 752-755, Stuttgart, Germany, 2017. Institute for Structural Mechanics, University of Stuttgart.
[13] H. G. Bui, A. Alsahly, N. Ninić, and G. Meschke. Bim-based model generation and high performance simulation of soil-structure interaction in mechanized tunnelling. In The Fifth International Conference on Parallel, Distributed, Grid and Cloud Computing for Engineering (PARENG 2017), page Paper 44, 2017.
[14] A. Leon Bal, T.S. Dang, and G. Meschke. A hypoplastic particle finite element model for the simulation of soft soil excavation in mechanized tunneling. In G. Hofstetter, K. Bergmeister, J. Eberhardsteiner, G. Meschke, and H.F. Schweiger, editors, Proceedings of the 4th International Conference on Computational Methods in Tunneling and Subsurface Engineering (EURO:TUN 2017). University Innsbruck, 2017.
[15] A. Alsahly, V. E. Gall, A. Marwan, G. Meschke, M. Scheffer, and M. König. Bim-to-fem: Incorporating numerical simulations into bim concepts with application to real tunneling projects. In Proceedings of the World Tunneling Congress, 2017.
[16] G. Meschke, D: Vuksanovic, and M. Marjanovic. Finite element analysis of propagating delamination in laminated composite plates. In M. Petronijevic, B. Stevanovic, and M. Rakocevic, editors, Contemporary Problems of Theory of Structures. University of Montenegro, 2016.
[17] G. Meschke, J. Ninic, and S.A. Mohseni. Embedded finite element beam formulation for the modeling of pile-soil and fiber-matrix interactions. In M. Petronijevic, B. Stevanovic, and M. Rakocevic, editors, Contemporary Problems of Theory of Structures. University of Montenegro, 2016.
[18] G. Meschke. Interaction modeling in mechanized tunneling. In Proceedings of the World Tunneling Conference 2016. Society for Mining, Metallurgy and Exploration, 2016. [ .html ]
[19] S. Freitag, A. Alsahly, and G. Meschke. Numerical reliability analysis of tunnel face stability with interval and fuzzy soil parameters. In H. Huang, J. Li, J. Zhang, and J. Chen, editors, Proceedings of the 6th Asian-Pacific Symposium on Structural Reliability and its Applications (APSSRA 2016), pages 280-285, Shanghai, 2016.
[20] B.T. Cao, S. Freitag, and G. Meschke. Real-time prediction of structural processes with polymorphic uncertain data. In S. Freitag, R.L. Muhanna, and R.L. Mullen, editors, Proceedings of the 7th International Workshop on Reliable Engineering Computing (REC 2016), pages 469-488, Bochum, 2016.
[21] A. Alsahly, V. E. Gall, A. Marwan, J. Ninić, G. Meschke, A. Vonthron, and M. König. From building information modeling to real time simulation in mechanized tunneling. In Proceedings of the World Tunneling Congress, 2016.
[22] M.-M. Zhou, A. Marwan, and G. Meschke. Modeling and optimization of ground freezing in tunneling. In SEE Tunnel: Promoting Tunneling in SEE Region, Proceedings of the ITA World Tunnel Congress. ITA WTC 2015 Congress and 41st General Assembly, 2015.
[23] G. Meschke, J. Ninic, S. Freitag, B.T. Cao, A. Alsahly, and V. Gall. Predictions of soil-structure interaction in mechanized tunneling and TBM steering support. In M. Cvetkovska, editor, Proceedimngs of the 16th International Symposium of Macedonian Association of Structural Engineers (MASE 2015), pages 183-193. Macedonian Association of Structural Engineers, 2015.
[24] G. Meschke, J.J. Timothy, M.N. Nguyen, and M. Hofmann. AKR unter kombinierten Einwirkungen - Numerische Modellierung. In A. Ludwig, editor, 19. Int. Baustofftagung (IBAUSIL 2015), pages 1/1473 - 1/1483. Finger Institut Weimar, 2015.
[25] G. Meschke, A. Alsahly, S. Freitag, J. Ninić, V.E. Gall, and B.T. Cao. Simulation based real time prognosis for mechanized tunneling. In SEE Tunnel: Promoting Tunneling in SEE Region, Proceedings of the ITA World Tunnel Congress, Dubrovnik, 2015.
[26] D. Leonhart, J.J. Timothy, and G. Meschke. Determination of effective transport properties of fractured rocks using the Extended Finite Element Method and micromechanics. In W. Schubert, editor, EUROCK 2015 & 64th Geomechanics Colloquium. Österreichische Gesellschaft für Geomechanik, 2015.
[27] S. Freitag, B.T. Cao, J. Ninić, and G. Meschke. Hybrid rnn-gpod surrogate model for simulation and monitoring supported tbm steering. In Y. Tsompanakis, J. Kruis, and B.H.V. Topping, editors, Proceedings of the 4th International Conference on Soft Computing Technology in Civil, Structural and Environmental Engineering (CSC2015), page Paper 2, Prague, 2015. Civil-Comp Press. [ DOI ]
[28] H. G. Bui and G. Meschke. Study on performance of parallel solvers for coupled simulations of partially saturated soils in tunnel engineering application. In The Fourth International Conference on Parallel, Distributed, Grid and Cloud Computing for Engineering (PARENG 2015), page Paper 36, 2015.
[29] J. Ninić, S. Miro, G. Meschke, D. Hartmann, and T. Schanz. Meta model-based sensitivity analyses of soil-structure interaction in urban tunneling. In 14th International Conference of the International Association for Computer Methods and Advances in Geomechanics (14IACMAG), Kyoto, Japan, September 2014.
[30] A. Alsahly and G. Meschke. Error-controlled adaptive simulation and numerical assessment of face stability in mechanized tunneling. In Computer Methods and Advances in Geomechanics (14IACMAG), Kyoto, Japan, September 2014.
[31] A. Alsahly, C. Callari, and G. Meschke. A discontinuity tracking algorithm based on assumed enhanced modes. In 11th. World Congress on Computational Mechanics (WCCM XI), Barcelona, Spain, July 2014.
[32] M.-M. Zhou and G. Meschke. Numerical modeling of artificial ground freezing: multiphase modeling and strength upscaling. In Geo-Shanghai 2014 (Ground Improvement and Geosynthetics), pages 209-219, 2014. [ DOI ]
[33] Y. Zhan, H.G. Bui, J. Ninić, S.A. Mohseni, and G. Meschke. Numerical modeling of steel fiber reinforced concrete on the meso- and macro-scale. In N. Bićanić, H. Mang, G. Meschke, and R. de Borst, editors, Computational Modelling of Concrete Structures (Proceedings of EURO-C 2014), pages 579-586. CRC Press/Balkema, NL, 2014.
[34] J.J. Timothy and G. Meschke. A continuum micromechanics-lefm model for fiber reinforced concrete. In G. Meschke N. Bićanić, H. Mang and R. de Borst, editors, Computational Modelling of Concrete Structures (EURO-C 2014), pages 327-332. CRC Press/Balkema, NL, 2014.
[35] J. Ninić, C. Koch, S. Freitag, G. Meschke, and M. König. Simulation- and monitoring-based steering for mechanized tunneling using project data of Wehrhahn-Linie. In Proceedings of the 11th World Congress on Computational Mechanics (WCCM 2014), Barcelona, 2014. online available.
[36] M.N. Nguyen, J.J. Timothy, S. Beckhuis, and G. Meschke. Hydraulic effects of fracture in brittle porous materials. PAMM, 14(1):135-136, 2014. [ DOI | http ]
[37] M. N. Nguyen, J. J. Timothy, and G. Meschke. Numerical analysis of multiple ion species diffusion and alkali-silica reaction in concrete,. In G├╝nther Meschke Minh N. Nguyen*, Jithender J. Timothy, editor, Computational Modelling of Concrete and Concrete Structures (EURO-C 2014), pages 789-796. CRC Press/Balkema, NL, 2014.
[38] G. Meschke, S. Freitag, J. Ninić, and B.T. Cao. Numerische Simulation maschineller Tunnelvortriebe zur vortriebsbegleitenden Prognose von Steuerparametern. In K. Bletzinger, R. Fisch, and N. Gebbeken, editors, Baustatik-Baupraxis 12, pages 501-508. TU München, UniBW München, 2014.
[39] G. Meschke, M.-M. Zhou, M. Zaki, and A. Marwan. Computational modelling and optimization of artificial ground freezing in tunnelling. In S. Murakami, editor, Computer Methods and Advances in Geomechanics (IACMAG 2014), Kyoto, Japan, 2014.
[40] M. Galli, A Alsahly, T Barciaga, F. Hegemann, C. Koch, K.H. Lehner, S. Schindler, and G. Meschke. Integrated data processing and simulation platform for mechanized tunneling - showcase application on the wehrhahn-lini project in d"usseldorf. In World Tunneling Congress (WTC 2014), 2014.
[41] S. Freitag, B. T. Cao, J. Ninić, and G. Meschke. Surrogate modeling for mechanized tunneling simulations with uncertain data. In M. Modares, editor, Proceedings of the 6th International Workshop on Reliable Engineering Computing (REC 2014), pages 44-63, Chicago, 2014.
[42] S. Freitag, B.T. Cao, and G. Meschke. Numerical predictions of surface settlements in mechanized tunneling: Hybrid POD and ANN surrogate modeling for reliability analyses. In M. Beer, S.-K. Au, and J.W. Hall, editors, Vulnerability, Uncertainty, and Risk: Quantification, Mitigation, and Management (Proceedings of the Second International Conference on Vulnerability and Risk Analysis and Management (ICVRAM) and the Sixth International Symposium on Uncertainty, Modeling, and Analysis (ISUMA)), pages 557-566, Liverpool, 2014. ASCE.
[43] T.S. Dang, G. Meschke, N. Wessels, and K. Hackl. Coupled computational simulation of excavation and soil transport in earth-pressure balance shield tunneling machines using a viscous two-phase fluid model for soil-foam mixtures. In Geoshanghai 2014, pages 780-789, 2014.
[44] B. T. Cao, S. Freitag, and G. Meschke. Steering of mechanized tunneling processes with hybrid surrogate models based on numerical and monitoring data. In Proceedings of the 11th World Congress on Computational Mechanics (WCCM 2014), Barcelona, 2014. online available.
[45] R. Breitenbücher, G. Meschke, F. Song, M. Hofmann, and Y. Zhan. Experimental and numerical study on the load-bearing behavior of steel fiber reinforced concrete for precast tunnel lining segments under concentrated loads. In J.-P. Charron, B. Massicotte, B. Mobasher, and G. Plizzari, editors, Fibre Reinforced Concrete: From Design to Structural Applications (FRC 2014 Joint ACI-fib International Workshop), pages 417-429, 2014.
[46] A. Alsahly, J. Stascheit, and G. Meschke. Adaptive computational simulation of tbm-soil interactions during machine-driven tunnel construction in saturated soft soils. In Tunneling and Underground Construction, Geoshanghai 2014, pages 769-779. ASCE, 2014. [ DOI ]
[47] V. Founta, J.Ninic, A. J. Whittle, G. Meschke, and J. Stascheit. Numerical simulation of ground movements due to epb tunnelling in clay. In EURO:TUN 2013, 3rd International Conference on Computational Methods in Tunneling and Subsurface Engineering, pages 97-108, Ruhr University Bochum, April 2013.
[48] M.-M. Zhou and G. Meschke. Strength homogenization for partially frozen soil using linear comparison composite approach. In Poromechanics V, pages 560-568. American Society of Civil Engineers, 2013. [ DOI ]
[49] Y. Zhan and G. Meschke. A multiscale oriented concept for the finite element analyses of fiber reinforced concrete tunnel linings. In G. Meschke, J. Eberhardsteiner, T. Schanz, K. Soga, and M. Thewes, editors, 3rd International Conference on Computational Methods in Tunneling and Subsurface Engineering (EURO:TUN 2013), pages 221-232. Aedificatio Publishers, Freiburg, Germany, 2013.
[50] Y. Zhan and G. Meschke. A multiscale oriented concept for the analyses of steel fiber reinforced concrete materials and structures. In J.G.M. van Mier, G. Ruiz, C. Andrade, R.C. Yu, and X.X. Zhang, editors, VIII International Conference on Fracture Mechanics of Concrete and Concrete Structures (FraMCoS-8), pages 1352-1359. CIMNE, Barcelona, Spain, 2013.
[51] N. Wessels, T.S. Dang, K. Hackl, and G. Meschke. Cutting and material transport in epb shield machines: A coupled simulation approach. In G. Meschke, J. Eberhardsteiner, K. Soga, T. Schanz, and M. Thewes, editors, Computational Methods in Tunneling and Subsurface Engineering (EURO:TUN 2013), 2013. in print.
[52] J. J. Timothy and G. Meschke. Diffusion in fracturing porous materials: Characterizing topological effects using cascade micromechanics and phase-field models. In Poromechanics V (ASCE), pages 2250-2259, 2013. [ DOI ]
[53] J. J. Timothy and G. Meschke. Modeling electrolyte diffusion in cracked cementitious materials using cascade continuum micromechanics and phase-field models. In Fracture Mechanics of Concrete Structures (Framcos 2013), 2013.
[54] J. Stascheit, C. Koch, F. Hegemann, M. K├Ânig, and G. Meschke. Process-oriented simulation of mechanized tunneling using an ifc based tunnel product model. In Proceedings of the 13th International Conference on Construction Applications of Virtual Reality (CONVR), pages 613-620, London, 2013.
[55] J. Stascheit, S. Freitag, M. Beer, K.K. Phoon, J. Ninić, B.T. Cao, and G. Meschke. Concepts for reliability analyses in mechanised tunnelling - part 2: Application. In G. Meschke, J. Eberhardsteiner, T. Schanz, K. Soga, and M. Thewes, editors, Proceedings of the Third International Conference on Computational Methods in Tunnelling and Subsurface Engineering (EURO:TUN 2013), pages 801-811, Bochum, 2013. Aedificatio Publishers.
[56] J. Ninic, J. Stascheit, and G. Meschke. Simulation-based steering for mechanized tunneling using an ann-pso-based meta-model. In Y. Tsompanakis, editor, The Third International Conference on Soft Computing Technology in Civil, Structural and Environmental Engineering, page paper 5. Civil-Comp Press, 2013.
[57] G. Meschke, S. Freitag, J. Ninić, and B.T. Cao. Simulations- und monitoring-basierte prozesssteuerung im maschinellen tunnelbau. In M. Kaliske and W. Graf, editors, Ingenieurwissen und Vorschriftenwerk, 17. Dresdner Baustatik-Seminar, pages 127-149. Institut für Statik und Dynamik der Tragwerke, TU Dresden, 2013.
[58] P. Manickam, F. Hegemann, K. Lehner, C. Koch, and M. K├Ânig. Interaction modelling for coupling simulations using sysm. In G. Meschke, J. Eberhardsteiner, K. Soga, T. Schanz, and M. Thewes, editors, Computational Methods in Tunneling and Subsurface Engineering (EURO:TUN 2013), pages 85-96, 2013.
[59] S. Freitag, M. Beer, K.K. Phoon, J. Stascheit, J. Ninić, B.T. Cao, and G. Meschke. Concepts for reliability analyses in mechanised tunnelling - part 1: Theory. In G. Meschke, J. Eberhardsteiner, T. Schanz, K. Soga, and M. Thewes, editors, Proceedings of the Third International Conference on Computational Methods in Tunnelling and Subsurface Engineering (EURO:TUN 2013), pages 791-799, Bochum, 2013. Aedificatio Publishers.
[60] Ba Trung Cao, Klaus Chmelina, Janosch Stascheit, and G├»┬┐┬Żnther Meschke. Enhanced monitoring and simulation assisted tunnelling (emsat). In G. Meschke, J. Eberhardsteiner, K. Soga, T. Schanz, and M. Thewes, editors, Computational Methods in Tunneling and Subsurface Engineering (EURO:TUN 2013), pages 41-50, 2013.
[61] A. Alsahly, J. Stascheit, and G. Meschke. Three dimensional re-meshing for real time modeling of advancing process in mechanized tunneling. In J. P. Moitinho de Almeida, P. Díez, C. Tiago, and N. Pares, editors, Adaptive Modeling and Simulation (ADMOS2013), pages 75-88, 2013.
[62] A. Alsahly, J. Stascheit, and G. Meschke. Computational framework for 3d adaptive simulation of excavation and advancement processes in mechanized tunneling. In G. Meschke, J. Eberhardsteiner, K. Soga, T. Schanz, and M. Thewes, editors, Computational Methods in Tunneling and Subsurface Engineering (EURO:TUN 2013), pages 85-96, 2013.
[63] M.-M. Zhou and G. Meschke. Numerical modeling of coupled thermal-hydro-mechanical processes in artificial ground freezing. In Austria Vienna University of Technology, editor, CD-ROM Proceedings of the 6th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012), Vienna, Austria, September 10-14, 2012 2012. Eberhardsteiner, J.; Bluhm, H.J.; Rammerstorfer, F.G., Publisher:. ISBN: 978-3-9502481-9-7.
[64] G. Meschke and J. J. Timothy. Multiscale modeling of electrolyte diffusion in fracturing materials. In J. Eberhardsteiner and F. B"ohm, H.J amd Rammerstorfer, editors, CD-ROM Proceedings of the 6th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012). Vienna University of Technology, Austria, September 10-14, 2012, Vienna, Austria 2012. ISBN: 978-3-9502481-9-7.
[65] F. Cazes and G. Meschke. Two imbricate finite element methods with smooth approximations,. In J. Eberhardsteiner and F. B"ohm, H.J amd Rammerstorfer, editors, Proceedings of the 6th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012). Vienna University of Technology, Austria, September 10-14, 2012, Vienna, Austria 2012. ISBN: 978-3-9502481-9-7, CD-ROM.
[66] Y. Zhan and G. Meschke. A multiscale model for the finite element analysis of steel fiber reinforced concrete. In A. Ibrahimbegović, M. Hrasnica, M. Zlatar, S. Dolarević, and M. Madžarević, editors, IASS-IACM 2012: 7th International Conference on Computational Mechanics for Spatial Structures, pages 404-405. Faculty of Civil Engineering Sarajevo, Sarajevo, BiH, 2012.
[67] G. Meschke and D. Leonhart. Computational modeling of hydraulic fracturing in partially saturated porous materials using x-fem. In Gerhard A. Holzapfel and Ray W. Ogden, editors, ESMC-2012 - 8th European Solid Mechanics Conference. Verlag d. Technischen Universität Graz, 2012. ISBN: 978-3-85125-223-1.
[68] A. Bezuijen, F. Nagel, and G. Meschke. Flow around a tbm: A comparison of analytical and numerical models. In Giulia Viggiani, editor, Geotechnical Aspects of Underground Construction in Soft Ground, pages 173-180, Roma, Italy, 2012. CRC Press.
[69] G. Meschke, A. Alsahly, J. Ninic, and J. Stascheit. Parallelized simulations of advancement processes and soil-structure interactions in mechanized tunneling. In Third International Symposium on Computational Mechanics (ISCM III), Taipei, Taiwan, December 2011.
[70] G. Meschke, D. Leonhart, T.S. Dang, and M.N. Nguyen. Isogeometric and poromechanics extended finite element models for crack propagation in single and two-phase materials. In G. Zavarise and S. Reese, editors, Trends and Challenges in Computational Mechanics, pages 81-82, Padova, Italy, September 2011. Edizioni Libreria Progetto.
[71] J. Ninić, J. Stascheit, and G. Meschke. Numerical simulation of interactions between tbm-driven tunnel construction and pile foundations. In N. Khalili and M. Oeser, editors, Computer Methods for Geomechanics: Frontiers and New Applications, volume 1, pages 213-218, Melbourne, Australia, May 2011. IACMAG.
[72] J. Ninić, J. Stascheit, G. Meschke, and D. Divac. Numerical simulation of natm tunnel construction for the bocac tunnel project - a comparison of 2D and 3D analyses. In 1st International Congress on Tunnels andUunderground Structures in South-East Europe - Using Underground Space, pages 1-10, Dubrovnik, Croatia, April 2011. Croatian Association for Tunnelling and Underground Structures, ITA Croatia. published on USB Stick.
[73] M.-M. Zhou and G. Meschke. A three-phase finite element model of water-infiltrated porous materials subjected to freezing. In M. Papadrakakis, E. Onate, and B. Schrefler, editors, Coupled Problems 2011, pages 1083-1094. CIMNE, 2011. CD-Rom, ISBN: 978-84-87867-59-0.
[74] J. Stascheit and G. Meschke. Modelle und lösungsmethoden für parallelisierte numerische simulationen von vortriebsprozessen im maschinellen tunnelbau. In G. Hofstetter, G. Beer, Yvonne Theiner, and Christian Dünser, editors, Baustatik-Baupraxis 11, pages 379-386, 2011.
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[159] S. Grasberger, F. Bangert, D. Kuhl, and G. Meschke. Numerical modelling of environmentally induced deterioration of concrete. In R. de Borst, J. Mazars, G. Pijaudier-Cabot, and J.G.M. van Mier, editors, Fracture mechanics of concrete structures, FRAMCOS IV, pages 145-152. Balkema, 2001. reprint in Restoration of Buildings and Monuments. [ .pdf ]
[160] F. Bangert, D. Kuhl, G. Meschke, and L. Lohaus. Environmentally induced deterioration of concrete structures: modelling and numerical simulation. In First International Conference Lifetime Oriented Design Concepts, Ruhr-Universität Bochum, Germany, 2001. [ .pdf ]
[161] F. Bangert, D. Kuhl, and G. Meschke. Finite element simulation of chemo-mechanical damage under cyclic loading conditions. In R. de Borst, J. Mazars, G. Pijaudier-Cabot, and J.G.M. van Mier, editors, Fracture mechanics of concrete structures, FRAMCOS IV, pages 207-214. Balkema, 2001. [ .pdf ]
[162] F. Bangert, S. Grasberger, D. Kuhl, and G. Meschke. Numerical modeling of long-term deterioration of concrete structures accounting for hygral and chemical processes. In W.A. Wall, K.-U. Bletzinger, and K. Schweizerhof, editors, Trends in Computational Structural Mechanics, pages 69-78, Barcelona, 2001. CIMNE.
[163] J. Mosler and G. Meschke. 3D FE analysis of cracks by means of the strong discontinuity approach. In European Conference on Computational Mechanics in Applied Sciences and Engineering, ECCOMAS 2000, Barcelona, September 2000. CD-ROM.
[164] D. Kuhl, F. Bangert, and G. Meschke. An extension of damage theory to coupled chemo-mechanical processes. In European Conference on Computational Mechanics in Applied Sciences and Engineering, ECCOMAS 2000, Barcelona, September 2000. CD-ROM.
[165] S. Grasberger and G. Meschke. A hygro-thermal-poroplastic damage model for durability analyses of concrete structures. In European Congress on Computational Methods in Applied Sciences and Engineering, Barcelona, 2000. CD-ROM. [ .pdf ]
[166] S. Grasberger and G. Meschke. Numerical thermo-hygro-mechanical analysis of concrete structures. In K. Bergmeister, editor, 3rd International PhD Symposium in Civil Engineering, volume 1, pages 221-229, Wien, 2000. Institut für Konstruktiven Ingenieurbau, Universität für Bodenkultur.
[167] H.J. Payer, G. Meschke, and H.A. Mang. Application of the finite element method to the analysis of automobile tires. In H.A. Mang and F.G. Rammerstorfer, editors, Proceedings of the 2nd IUTAM Symposium on Discretization Methods in Structural Mechanics, pages 241-248, Wien, 1999. Kluwer Academic Publishers. [ .pdf ]
[168] G. Meschke, H.A. Mang, M.N. Fardis, and S.N. Bousias. Retrofitting of a RC cooling tower: From concrete modelling to structural design. In R. Avent and M. Alawady, editors, Civil Engineering in the 21st Century, pages 170-173. ASCE, 1999. [ .pdf ]
[169] W.N. Liu, G. Meschke, and H.A. Mang. A note on the algorithmic stabilization of 2D contact analyses. In L. Gaul and C.A. Brebbia, editors, Computational Methods in Contact Mechanics IV, pages 231-240. WIT Press, 1999.
[170] H.J. Payer, G. Meschke, W. Liu, and H. Mang. FE-simulation der Wechselwirkung zwischen Autoreifen und schneebedeckten Fahrbahnen. In Finite Elemente in der Baupraxis, Beiträge zur Tagung FEM im Bauwesen, pages 277-286, Darmstadt, März 1998. Ernst und Sohn.
[171] G. Meschke, J. Macht, and R. Lackner. A damage-plasticity model for concrete accounting for fracture-induced anisotropy. In R. de Borst, N. Bićanić, H. Mang, and G. Meschke, editors, Computational Modelling of Concrete Structures, volume 1, pages 3-12, Rotterdam, 1998. Balkema.
[172] W.N. Liu, G. Meschke, and H.A. Mang. Comparison of different approximations of the relative tangential slip in contact analyses with velocity-dependent friction models. In B.H.V. Topping, editor, 4. Int. Conference on Computational Structures Technology, pages 261-269, Edinburgh, Schottland, 1998. Advances in Computational Structural Mechanics, Civil-Comp Press. [ .pdf ]
[173] H.J. Payer, G. Meschke, and H.A. Mang. Computational mechanics of automobile tires. In S.N. Atluri and G. Yagawa, editors, Advances in Computational Engineering Science, pages 551-556, Georgia, USA, 1997. Tech Science Press. [ .pdf ]
[174] G. Meschke, H. Mang, and Th. Huemer. Inelastic material modelling of concrete and computer-aided retrofitting of a damaged RC shell. In K. Meskouris and U. Wittek, editors, Aspects in Modern Computational Structural Analysis, pages 231-245. Balkema, 1997.
[175] G. Meschke, H. Mang, and Th. Huemer. Inelastic material modelling of concrete and computer-aided retrofitting of a damaged rc shell. In K. Meskouris and U. Wittek, editors, Aspects in Modern Computational Structural Analysis, pages 231-245. Balkema, 1997. Festschrift Prof. Krätzig.
[176] G. Meschke and H.A. Mang. Werkstoffmodelle für gerissenen Stahlbeton: Konzepte, Algorithmen und numerische Analysen. Materialmodelle und Methoden zur wirklichkeitsnahen Berechnung von Beton-, Stahlbeton- und Spannbetonbauteilen. In F. Blaschke, G. Günther, and J. Kollegger, editors, Festschrift anlässlich des Eintritts in den Ruhestand von Prof. G. Mehlhorn, pages 182-194, Kassel, 1997. Eigenverlag GH Kassel.
[177] C. Kropik, G. Meschke, H.A. Mang, and C. Hellmich. Numerical simulations of the excavation of a shallow tunnel driven by the NATM. In C.K.Choi, C.B. Yun, and D.G. Lee, editors, Proceedings of the 3rd Asian-Pacific Conference on Computational Mechanics (APCOM), volume 4, pages 2579-2597, Seoul, Korea, September 1996. Techno-Press, Yusong, Korea.
[178] G. Meschke and H.A. Mang. 3D Stoffmodell für Spritzbeton. Aus dem Massivbau und seinem Umfeld. In Festschrift Josef Eibl. Schriftenreihe des Instituts für Massivbau und Baustofftechnologie, pages 167-182, Universität Karlsruhe, 1996.
[179] G. Meschke. Numerische und experimentelle Untersuchungen der Traktionseigenschaften von Reifenprofilen auf schneebedeckten Fahrbahnen. In Tribologie rund um das KFZ, pages 55-66, Wien, Österreich, Oktober 1996. Österreichische Tribologische Gesellschaft.
[180] C. Kropik, H.A. Mang, and G. Meschke. Synthesis of constitutive modelling and numerical simulations in the context of the excavation of shallow tunnels by the NATM. In Computational Methods in Applied Sciences 96, pages 218-226. Wiley & Sons, 1996.
[181] G. Meschke, Th. Huemer, Chr. Kropik, and H.A. Mang. On the role of numerical analyses in the strengthening of RC structures. In Extending the Lifespan of Structures, pages 717-722. IVBH, August 1995.
[182] G. Meschke. A new viscoplastic model for snow at finite strains. In D.R.J. Owen, E. Oñate, and E. Hinton, editors, Proceedings of the 4th Conference on Computational Plasticity (Complas IV), pages 2295-2306, Barcelona, April 1995. Pineridge Press.
[183] R. Mundl, G. Meschke, and W.ueber Liederer. Kraft"ubertragung von Profilstollen auf Schneefahrbahnen. In VDI-Berichte, volume 1224, pages 79-99, Hannover, Oktober 1995. [ .pdf ]
[184] G. Meschke, H.J. Payer, C.H. Liu, P. Helnwein, and H.A. Mang. 3D-FE simulations of automobile tires. In Proceedings of ICES 95, pages 290-295, Hawaii, 1995.
[185] J. Murin, G. Meschke, P. Helnwein, and H. Mang. A study on solution algorithms for geometrically and physically nonlinear 1D finite elements. In Proceedings of the Conference on Numerical Methods in Continuum Mechanics, pages 19-22, Stara Lesna, Hohe Tatra, September 1994.
[186] C.H. Liu, G. Meschke, and H.A. Mang. Large strain FE-analyses of localized failure in snow. In Proceedings of the Conference on Localized Damage 94, pages 461-469, Udine, June 1994.
[187] J. Eberhardsteiner, Chr. Kropik, H. Mang, and G. Meschke. Material modelling and elasto-viscoplastic stress analysis of a tunnel junction. In H.J. Siriwardane and M.M. Zaman, editors, Proceedings of the 8. International Conference of the International Association for Computer Methods and Advances in Geomechanics, IACMAG, pages 2571-2576, Virginia, USA, Mai 1994. Balkema.
[188] G. Meschke. A multisurface visco-plastic model for shotcrete. Algorithmic aspects and finite element analyses of tunnel linings. In H. Mang, N. Bićanić, and R. de Borst, editors, EUROC94, volume 1, pages 243-254, Innsbruck, 1994. Pineridge Press Limited.
[189] H.A. Mang and G. Meschke. Finite element methods in academic engineering education. In J. Robinson, editor, Proceedings of the 7th World Congress of Finite Element Methods, pages 154-160, November 1993.
[190] J.C. Simo and G. Meschke. New algorithms for multiplicative plasticity that preserve the classical return mappings: Application to soil mechanics. In D.R.J. Owen, E. Oñate, and E. Hinton, editors, Third International Conference on Computational Plasticity, Barcelona, pages 765-790, Swansea, 1992. Pineridge Press.
[191] G. Meschke. Numerische Simulationen im Bauwesen mittels der Methode der Finiten Elemente. Eine Bestandsaufnahme. In Ch. Kühn, editor, CAAD, Computer aided architectural design, pages 275-291, Wien, 1992. Österreichische Computer Gesellschaft, Technische Universität Wien.
[192] G. Meschke and H. Mang. Numerical investigation of the safety coefficient of a cracked cooling tower against structural collapse. In Proceedings of the IABSE-Colloquium on Structural Concrete, pages 349-354, Stuttgart, April 1991.
[193] G. Hofstetter, H.A. Mang, and G. Meschke. 3D inelastic constitutive modelling for FE analyses of concrete structures. In P. Wriggers and W. Wagner, editors, Nonlinear Computational Mechanics, pages 606-626. Springer, Berlin, 1991.
[194] G. Meschke. Application of elasto-plastic constitutive models to 3D-finite-element-analyses of reinforced concrete structures. In N. Bićanić and H. Mang, editors, Proceedings of the Second International Conference on Computer Aided Analysis and Design of Concrete Structures, pages 1041-1053, Zell am See, Österreich, April 1990. Pineridge Press.
[195] G. Meschke and H.A. Mang. Application of a new hypoplastic material model to 3D Finite Element analyses of concrete structures. In D.R.J. Owen, E. Oñate, and E. Hinton, editors, Computational Plasticity, volume 2, pages 1219-1234, Swansea, 1989. Pineridge Press.
[196] J. Eberhardsteiner, G. Meschke, and H.A. Mang. Synthesis of constitutive modelling of triaxially loaded concrete and finite element analysis of thick-walled RC structures. In Proceedings of the International Conference on Computational Engineering Science, pages 30.ii.1-30.ii.4, Atlanta, USA, April 1988. Springer.
[197] J. Eberhardsteiner, G. Meschke, and H. Mang. Comparison of constitutive models for triaxially loaded concrete. In Proceedings of the IABSE Colloquium on Computational Mechanics of Concrete Structures, pages 197-209, Delft, Niederlande, August 1987.

Autorenschaft von Büchern (21.01.2018 09:01)

[1] G. Meschke. Computergestützte Prognosemodelle im konstruktiven Ingenieurbau. Ferd. Schöningh Gmb.Co.KG, 2005.

Herausgeberschaft von Büchern und Sammelbänden (21.01.2018 09:01)

[1] G. Hofstetter and G. Meschke, editors. Numerical Modeling of Concrete Cracking, volume 532 of CISM Courses and Lectures. Springer Wien New York, 2011. 327 pages.
[2] F. Stangenberg, R. Breitenbücher, O.T. Bruhns, D. Hartmann, D. Kuhl, and G. Meschke, editors. Lifetime-Oriented Structural Design Concepts. Springer Berlin, 2009. 723 pages.
[3] N. Bicanic, R. de Borst, H.A. Mang, and G. Meschke, editors. Computational Modelling of Concrete Structures, EURO-C 2003, Lisse, The Netherlands, 2003. Balkema.

Mitautorenschaft von Handbuchbeiträagen (21.01.2018 09:01)

[1] M. Smarslik, T. Putke, A. Marwan, V. E. Gall, G. Meschke, and P. Mark. Berechnungsmodelle für bau- und endzustände von tübbingtunneln. In Deutsche Gesellschaft für Geotechnik e.V., editor, Taschenbuch für den Tunnelbau 2018, pages 111-146. Ernst & Sohn GmbH & Co. KG., 2018.
[2] R. Grytz, G. Meschke, J.B. Jonas, and J.C. Downs. Structure-Based Mechanics of Tissues and Organs, chapter Glaucoma and Structure-Based Mechanics of the Lamina Cribrosa at Multiple Scales, pages 93-122. Springer US, Boston, MA, 2016. [ DOI | http ]
[3] G. Meschke. Numerische Simulation im Tunnelbau. In K. Bergmeister, F. Fingerloos, and J.-D. Wörner, editors, Beton-Kalender 2014: Unterirdisches Bauen, Grundbau, Eurocode 7, volume 1, chapter VII, pages 171-232. Ernst & Sohn, Berlin, 2014. unter Mitarbeit von A. Alsahly, T.S. Dang, S. Freitag, V.E. Gall, J. Ninić, J. Stascheit und M. Zhou.
[4] G. Meschke, S. Grasberger, C. Becker, and S. Jox. Smeared crack and X-FEM models in the context of poromechanics. In G. Hofstetter and G. Meschke, editors, Numerical Modeling of Concrete Cracking, CISM Courses and Lectures, pages 265-327. Spinger Wien New York, 2011.
[5] F. Nagel, J. Stascheit, G. Meschke, A. Gens, and T. Rodic. Process-oriented numerical simulation of mechanised tunnelling. In G. Beer, editor, Technology Innovations in Underground Construction, pages 87-127. Taylor and Francis, 2009.
[6] R. Grytz and G. Meschke. Microstructure-oriented modeling and computational remodeling of the collagen network in corneo-scleral shells. In J. Eberhardsteiner, C. Hellmich, H.A. Mang, and J. Periaux, editors, Multidisciplinary Jubilee Symposium - New Computational Challenges in Materials, Structures, and Fluids, volume 14 of Computational Methods in Applied Sciences, pages 155-168. Springer, 2009.
[7] O.T. Bruhns and G. Meschke. Deterioration of materials and structures. In F. Stangenberg, R. Breitenbücher, O.T. Bruhns, D. Hartmann, R. Höffer, D. Kuhl, and G. Meschke, editors, Lifetime-Oriented Structural Design Concepts, pages 123-364. Springer, 2009.
[8] G. Meschke, P. Dumstorff, and W. Fleming. Computational aspects of a variational extended finite element model for cohesive cracks: Influence of integration and interface law. In A. Combescure, R. de Borst, and T. Belytschko, editors, IUTAM Symposium on Discretization Methods for Evolving Discontinuities, IUTAM Bookseries. Springer, 2007. 283-302.
[9] H.A. Mang, G. Meschke, R. Lackner, and J. Mosler. Computational modelling of concrete structures. In I. Milne, R.O. Ritchie, and B. Karihaloo, editors, Comprehensive Structural Integrity, volume 3, pages 1-67. Elsevier, 2003.
[10] J. Eberhardsteiner, Hofstetter G., H.A. Mang, G. Meschke, and H. Walter. Traglastanalysen von (a) schlaff bewehrten, dickwandigen Konstruktionselementen und (b) vorgespannten, dünnwandigen Schalen aus Beton. In E. Stein, editor, Bericht zum Schlusskolloquium über nichtlineare Berechnungen im konstruktiven Ingenieurbau, pages 303-323. Springer-Verlag, 1989.

Herausgeberschaft von Tagungsbänden (21.01.2018 09:01)

[1] G. Meschke, S. Freitag, C. Birk, J. Menkenhagen, and T. Ricken, editors. Baustatik-Baupraxis 13. Forschungsvereinigung Baustatik-Baupraxis, Ruhr-Universität Bochum, 2017. ISBN: 978-3-00-055827-6.
[2] G. Hofstetter, K. Bergmeister, J. Eberhardsteiner, G. Meschke, and H.F. Schweiger, editors. Computational Methods in Tunneling and Subsurface Engineering (EURO:TUN 2017). leopold-Franzens-Universit├Ąt Innsbruck, 2017.
[3] N.Bicanic, H.A. Mang, G. Meschke, and R. de Borst, editors. Computational Modelling of Concrete Structures, Proceedings of the EURO-C 2014 conference. CRC presss, 2014. 1120 pages.
[4] G. Meschke, J. Eberhardsteiner, T. Schanz, K. Soga, and M. Thewes, editors. Computational Methods in Tunneling (EURO:TUN 2013). Aedificatio Publishers, 2013.
[5] N.Bicanic, R. de Borst, H.A. Mang, and G. Meschke, editors. Computational Modelling of Concrete Structure, Proceedings of the EURO-C 2010 conference. Balkema, Rotterdam, 2010. 836 pages.
[6] G. Meschke, G. Beer, J. Eberhardsteiner, D. Hartmann, and M. Thewes, editors. Computational Methods in Tunneling (EURO:TUN 2009). Aedificatio Publishers, 2009. Volume 1: 1-568, Volume 2: 569-1077.
[7] F. Stangenberg, O.T. Bruhns, D. Hartmann, and G. Meschke, editors. Proceedings of the 3rd International Conference on Lifetime-Oriented Design Concepts (ICLODC 2007). SFB 398, Ruhr-Universit{a
[8] J. Eberhardsteiner, G. Beer, C. Hellmich, H.A. Mang, G. Meschke, and W. Schubert, editors. Proceedings of the International Conference on Computational Modelling in Tunnelling EURO:TUN 2007, ECCOMAS Special Thematic Conference, 2007.
[9] G. Meschke, R. de Borst, H.A. Mang, and N. Bicanic, editors. Computational Modelling of Concrete Structures, Proceedings of the EURO-C 2006 Conference, Mayrhofen, Austria, March 2006 2006. Taylor & Francis.
[10] F. Stangenberg, O.T. Bruhns, D. Hartmann, and G. Meschke, editors. Proceedings of the 2nd International Conference on Lifetime-Oriented Design Concepts (ICLODC 2004). SFB 398, Ruhr-Universit{a
[11] N. Bicanic, R. de Borst, H.A. Mang, and G. G. Meschke, editors. Proceedings of the International Conference on Computational Modelling of Concrete Structures, Balkema, Rotterdam, 2003.
[12] R. de Borst, N. Bicanic, H.A. Mang, and G. Meschke, editors. Computational Modelling of Concrete Structures, volume 1, 2 of EURO-C 1998. Balkema, Rotterdam, 1998.

Herausgeberschaft von Sonderheften wissenschaftlicher Zeitschriften (21.01.2018 09:01)

[1] J. Eberhardsteiner, G. Hofstetter, and G. Meschke. Special issue in honour of herbert mang's 70th birthday: Selected papers from the third international symposium on computational mechanics in conjunction with the second symposium on computational structural engineering (ISCM III - CSE II) (13 contributions). In Engineering Structures, volume 47, pages 1-154, February 2013.
[2] G. Hofstetter and G. Meschke. Special issue ,,advanced models for fracture in quasi- brittle materials (12 contributions). In International Journal for Numerical and Analytical Methods in Geomechanics, Volume 31 (1-2), pages 109-370, 2007.
[3] N. Bicanic, R. de Borst, H. Mang, and G. Meschke. Special issue ,,computational mechanics of concrete and concrete structures (6 contributions). In International Journal for Numerical and Analytical Methods in Geomechanics, Volume 28 (7-8), pages 563-874, 2004.