M. Sc. Mangesh Pise

Tel.: +49(0)-201-183-3091
Fax: +49(0)-201-183-2680

Raum: V15 S06 D95

mangesh.pise@uni-due.de

Universität Duisburg-Essen

Fakultät für Ingenieurwissenschaften
Abteilung Bauwissenschaften
Institut für Mechanik
Universitätsstraße 15
Raum V15 S06 D95
45141 Essen

 

Forschung

Schwerpunkte

  • Phase field modeling for steel fiber reinforced High-Performance Concrete
     
  • Elasto-plastic phase-field modeling of fracture in saturated binary porous media
     
  • Phase-field modeling of microstructure evolution in solidification

aktuelle Projekt

  • "Erfassung und Modellierung des Einflusses von Stahlfasern auf die Schädigungsentwicklung von Hochleistungsbetonen unter Ermüdungsbeanspruchung" (Projekt im Rahmen des DFG Schwerpunktprogramms 2020 "Zyklische Schädigungsprozesse in Hochleistungsbetonen im Experimental-Virtual-Lab") SPP2020

Lehre

Vorlesungen

  • Computational Inelasticity (M.Sc.)

Werdegang

01/ 2015

Masters degree, M.Sc. in Computational Mechanics, University of Duisburg-Essen, Essen, Germany. 

seit 2013

Research assistant, Institute of Mechanics, Faculty of Engineering, University of Duisburg-Essen, Essen, Germany.

2012 - 2015

Master course in Computational Mechanics, University of Duisburg-Essen, Essen, Germany.

2010 - 2011

Application engineer in International Tech Center at EagleBurgmann (Pentacle Technologies), Pune, Maharashtra, India

09/ 2009

Bachelors degree, B. Eng. - Bachelor in Mechanical Engineering, Sinhgad College of Engineering, Savitribai Phule Pune University, Pune, Maharashtra, India

2004 - 2009

Engineering studies in Mechanical Engineering, Sinhgad College of Engineering, Savitribai Phule Pune University, Pune, Maharashtra, India

2004

Higher Secondary School Education, Maharashtra, India

Publikationen

> JabRef References output

QuickSearch:   Number of matching entries: 0.

Search Settings

Gebuhr G., Pise M., Anders S., Brands D. and Schröder J. (2022), "Damage evolution of steel fiber reinforced high performance concrete in low-cycle flexural fatigue: numerical modeling and experimental validation", Materials. Vol. 15(3), pp. 1179.
BibTeX:
@article{GebPisAndBraSch:2022:deo,
  author = {Gebuhr, G. and Pise, M. and Anders, S. and Brands, D. and Schröder, J.},
  title = {Damage evolution of steel fiber reinforced high performance concrete in low-cycle flexural fatigue: numerical modeling and experimental validation},
  journal = {Materials},
  year = {2022},
  volume = {15},
  number = {3},
  pages = {1179},
  note = {doi.org/10.3390/ma15031179}
}
Schröder J., Pise M., Brands D., Gebuhr G. and Anders S. (Submitted (2021)), "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.
BibTeX:
@article{SchPisBraGebAnd:2021:pfm,
  author = {Schröder, J. and Pise, M. and Brands, D. and Gebuhr, G. and Anders, S.},
  title = {Phase-field modeling of fracture in high performance concrete during low-cycle fatigue: numerical calibration and experimental validation},
  journal = {Computer methods in applied mechanics and engineering},
  year = {Submitted (2021)},
  doi = {doi.org/10.3390/ma15031179}
}
Pise M., Brands D., Schröder J., Gebuhr G. and Anders S. (2021), "Macroscopic model for steel fiber reinforced high performance concrete based on unit cell calculations", Proceedings in Applied Mathematics and Mechanics. Vol. 21(1), pp. e202100180 (4 pages).
BibTeX:
@article{PisBraSchGebAnd:2021:mmf,
  author = {M.~Pise and D.~Brands and J.~Schröder and G.~Gebuhr and S.~Anders},
  title = {Macroscopic model for steel fiber reinforced high performance concrete based on unit cell calculations},
  journal = {Proceedings in Applied Mathematics and Mechanics},
  year = {2021},
  volume = {21},
  number = {1},
  pages = {e202100180 (4 pages)}
}
Storm J., Pise M., Brands D., Schröder J. and Kaliske M. (2021), "A comparative study of micro-mechanical models for fiber pullout behavior of reinforced high performance concrete", Engineering Fracture Mechanics. Vol. 243, pp. 107506.
BibTeX:
@article{StoPisBraSchKal:2021:acs,
  author = {Storm, J. and Pise, M. and Brands, D. and Schröder, J. and Kaliske M.},
  title = {A comparative study of micro-mechanical models for fiber pullout behavior of reinforced high performance concrete},
  journal = {Engineering Fracture Mechanics},
  year = {2021},
  volume = {243},
  pages = {107506},
  note = {10.1016/j.engfracmech.2020.107506}
}
Pise M., Brands D., Schröder J., Gebuhr G. and Anders S. (2020), "On the application of representative volume elements for steel fiber reinforced high performance concrete - a numerical study", Proceedings in Applied Mathematics and Mechanics. Vol. 20(1), pp. e202000323 (4 pages).
BibTeX:
@article{PisBraSchGebAnd:2020:ota,
  author = {M.~Pise and D.~Brands and J.~Schröder and G.~Gebuhr and S.~Anders},
  title = {On the application of representative volume elements for steel fiber reinforced high performance concrete - a numerical study},
  journal = {Proceedings in Applied Mathematics and Mechanics},
  year = {2020},
  volume = {20},
  number = {1},
  pages = {e202000323 (4 pages)}
}
Pise M., Brands D., Sarhil M., Schröder J., Gebuhr G. and Anders S. (2019), "Numerical calibration of elasto-plastic phase-field modeling of fracture for experimental pullout tests of single steel fibres embedded in high-performance concrete", In Advances in Engineering Materials, Structures and Systems: Innovations, Mechanics and Applications: Proceedings of the 7th International Conference on Structural Engineering, Mechanics and Computation (SEMC 2019), Cape Town, South Africa. London Taylor & Francis Group.
BibTeX:
@incollection{PisBraSarSchGebAnd:2019:nco,
  author = {M.~Pise and D.~Brands and M.~Sarhil and J.~Schröder and G.~Gebuhr and S.~Anders},
  editor = {A. Zingoni},
  title = {Numerical calibration of elasto-plastic phase-field modeling of fracture for experimental pullout tests of single steel fibres embedded in high-performance concrete},
  booktitle = {Advances in Engineering Materials, Structures and Systems: Innovations, Mechanics and Applications: Proceedings of the 7th International Conference on Structural Engineering, Mechanics and Computation (SEMC 2019), Cape Town, South Africa},
  publisher = {Taylor & Francis Group},
  year = {2019}
}
Gebuhr G., Pise M., Sarhil M., Anders S., Brands D. and Schröder J. (2019), "Deterioration development of steel fibre reinforced high performance concrete in low-cycle fatigue", In Advances in Engineering Materials, Structures and Systems: Innovations, Mechanics and Applications: Proceedings of the 7th International Conference on Structural Engineering, Mechanics and Computation (SEMC 2019), Cape Town, South Africa. London Taylor & Francis Group.
BibTeX:
@incollection{GebPisSarAndBraSch:2019:ddo,
  author = {G.~Gebuhr and M.~Pise and M.~Sarhil and S.~Anders and D.~Brands and J.~Schröder and},
  editor = {A. Zingoni},
  title = {Deterioration development of steel fibre reinforced high performance concrete in low-cycle fatigue},
  booktitle = {Advances in Engineering Materials, Structures and Systems: Innovations, Mechanics and Applications: Proceedings of the 7th International Conference on Structural Engineering, Mechanics and Computation (SEMC 2019), Cape Town, South Africa},
  publisher = {Taylor & Francis Group},
  year = {2019}
}
Pise M., Brands D., Gebuhr G., Sarhil M., Schröder J. and Anders S. (2019), "Elasto-plastic phase-field model for pullout tests of steel fiber embedded in high-performance concrete: numerical calibration and experimental validation", Proceedings in Applied Mathematics and Mechanics. Vol. 19(1), pp. e201900255 (4 pages).
BibTeX:
@article{PisBraGebSchAnd:2018:epp,
  author = {M.~Pise and D.~Brands and G.~Gebuhr and M.~Sarhil and J.~Schröder and S.~Anders},
  title = {Elasto-plastic phase-field model for pullout tests of steel fiber embedded in high-performance concrete: numerical calibration and experimental validation},
  journal = {Proceedings in Applied Mathematics and Mechanics},
  year = {2019},
  volume = {19},
  number = {1},
  pages = {e201900255 (4 pages)}
}
Gebuhr G., Pise M., Sarhil M., Anders S., Brands D. and Schröder J. (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. Vol. 20(4), pp. 1254-1264.
BibTeX:
@article{GebPisSarAndBraSch:2019:aae,
  author = {Gebuhr, G. and Pise, M. and Sarhil, M. and Anders, S. and Brands, D. and Schröder, J.},
  title = {Analysis and evaluation of single fibre pull-out behaviour of hooked steel fibres embedded in high performance concrete for calibration of numerical models},
  journal = {Structural Concrete},
  year = {2019},
  volume = {20},
  number = {4},
  pages = {1254-1264},
  note = {10.1002/suco.201900034}
}
Gebuhr G., Pise M., Sarhil M., Anders S., Brands D. and Schröder J. (2019), "Description and analyses of pull-out behaviour of hooked steel fibres embedded in high performance concrete using phase-field modeling", Proceedings of the fib Symposium., In Concrete Innovations in Materials, Design and Structures, 16th fib Symposium Proceedings. FIB CEB-FIP.
BibTeX:
@incollection{GebPisSarAndBraSch:2019:daa,
  author = {Gebuhr, G. and Pise, M. and Sarhil, M. and Anders, S. and Brands, D. and Schröder, J.},
  editor = {Derkowski, W. et al.},
  title = {Description and analyses of pull-out behaviour of hooked steel fibres embedded in high performance concrete using phase-field modeling},
  booktitle = {Concrete Innovations in Materials, Design and Structures, 16th fib Symposium Proceedings},
  journal = {Proceedings of the fib Symposium},
  publisher = {FIB CEB-FIP},
  year = {2019}
}
Pise M., Bluhm J. and Schröder J. (2019), "Elasto-plastic phase-field model of hydraulic fracture in saturated binary porous media", International Journal for Multiscale Computational Engineering. Vol. 17(2), pp. 201-221.
BibTeX:
@article{PisBluSch:2019:epp,
  author = {Pise, M. and Bluhm, J. and Schröder, J.},
  title = {Elasto-plastic phase-field model of hydraulic fracture in saturated binary porous media},
  journal = {International Journal for Multiscale Computational Engineering},
  year = {2019},
  volume = {17},
  number = {2},
  pages = {201-221},
  note = {10.1615/IntJMultCompEng.2019027066}
}
Pise M., Brands D., Gebuhr G., Schröder J. and Anders S. (2018), "Analysis of pullout behavior of single steel fibers embedded in concrete using phase-field modeling", Proceedings in Applied Mathematics and Mechanics. Vol. 18(1), pp. e201800401 (4 pages).
BibTeX:
@article{PisBraGebSchAnd:2018:aop,
  author = {M.~Pise and D.~Brands and G.~Gebuhr and J.~Schröder and S.~Anders},
  title = {Analysis of pullout behavior of single steel fibers embedded in concrete using phase-field modeling},
  journal = {Proceedings in Applied Mathematics and Mechanics},
  year = {2018},
  volume = {18},
  number = {1},
  pages = {e201800401 (4 pages)}
}
Pise M., Bluhm J. and Schröder J. (2017), "A phase-field model of hydraulic fracture in saturated binary porous media", Proceedings in Applied Mathematics and Mechanics. Vol. 17(1), pp. e201710239 (2 pages).
BibTeX:
@article{PisBluSch:2017:apf,
  author = {M.~Pise and J.~Bluhm and J.~Schröder},
  title = {A phase-field model of hydraulic fracture in saturated binary porous media},
  journal = {Proceedings in Applied Mathematics and Mechanics},
  year = {2017},
  volume = {17},
  number = {1},
  pages = {e201710239 (2 pages)}
}
Pise, M. (2015), "Phase-field modeling of microstructure evolution in solidification". Institut of Mechanics, University of Duisburg-Essen.
BibTeX:
@techreport{Pise:2015:pfm,
  author = {Pise, M.},
  title = {Phase-field modeling of microstructure evolution in solidification},
  school = {Institut of Mechanics, University of Duisburg-Essen},
  year = {2015}
}

Stand: 09.02.2022