Mohammad Sarhil

M. Sc. Mohammad Sarhil

Tel.: +49-201-183-3792
Fax: +49-201-183-2680
Raum: V15 S06 D02
 mohammad.sarhil@uni-due.de

Universität Duisburg-Essen

Fakultät für Ingenieurwissenschaften
Abteilung Bauwissenschaften
Institut für Mechanik
Universitätsstraße 15
Raum V15 S06 D02

45141 Essen

 

Forschung

  • Phasenfeld-Theorie
     
  • Homogenisierungsannahmen und konstitutive Beziehungen for Phasenfeldmodelle
     
  • Materialermüdung in HPC und UHPC mit Fasern

Werdegang

2007

High School Abschluss an der Fatiro High school – Latakia – Syrien

2007- 2012

"Structural Engineering" Abschluss an der Tischren University – Syrien

2012- 2015

Wissenschaftlicher Mitarbeiter an der Tischren University – Syrien

2015- 2018

"Computational Mechanics" Studium mit dem Abschluss M.Sc. an der Universität Duisburg-Essen

Seit 05/2018

Wissenschaftlicher Mitarbeiter am Institut für Mechanik, Universität Duisburg-Essen

 

Veröffentlichung

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M. Pise, D. Brands, M. Sarhil, Schröder J and G. Gebuhr and S.~Anders (accepted (2019)), "Numerical calibration of elasto-plastic phase-field modeling of fracture for experimental pull-out tests of single steel fibres embedded in high-performance concrete", The Seventh International Conference on Structural Engineering, Mechanics and Computation.
BibTeX:
@article{PisBraSarSchGebAnd:2019:nco,
  author = {M. Pise and D. Brands and M. Sarhil, and J. Schröder and G. Gebuhr
  and S. Anders},
  title = {Numerical calibration of elasto-plastic phase-field modeling of
  fracture for experimental pullout tests of single steel fibres embedded
  in high-performance concrete},
  journal = {The Seventh International Conference on Structural Engineering, Mechanics
  and Computation},
  year = {accepted (2019)}
}
Gebuhr G, Pise M, Sarhil M, Anders S, Brands D and Schröder J (accepted (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.
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 = {accepted (2019)}
}
Gebuhr G, Pise M, Sarhil M, Anders S, Brands D and Schröder J (accepted (2019)), "Description and analyses of pull-out behaviour of hooked steel fibres embedded in high performance concrete using phase-field modeling", FIB Proceedings.
BibTeX:
@article{GebPisSarAndBraSch:2019:daa,
  author = {Gebuhr, G. and Pise, M. and Sarhil, M. and Anders, S. and Brands, D. and Schröder, J.},
  title = {Description and analyses of pull-out behaviour of hooked steel fibres embedded in high performance concrete using phase-field modeling},
  journal = {FIB Proceedings},
  year = {accepted (2019)}
}
Behrens B-A, Schröder J, Brands D, Scheunemann L, Niekamp R, Chugreev A, Sarhil M, Uebing S and Kock C (2019), "Experimental and Numerical Investigations of the Development of Residual Stresses in Thermo-Mechanically Processed Cr-Alloyed Steel 1.3505", Metals. Vol. 9(4), pp. 480 (28 pages).
BibTeX:
@article{BraChuKocNieSchUebBehSch:2019:ean,
  author = {Behrens, B.-A. and Schröder, J. and Brands, D. and Scheunemann, L. and Niekamp, R. and Chugreev, A. and Sarhil, M. and Uebing, S. and Kock, C.},
  title = {Experimental and Numerical Investigations of the Development of Residual Stresses in Thermo-Mechanically Processed Cr-Alloyed Steel 1.3505},
  journal = {Metals},
  year = {2019},
  volume = {9},
  number = {4},
  pages = {480 (28 pages)}
}
Sarhil M (2018), "Constitutive Relations and Homogenization Assumptions in Phase-Field Models with Elasticity: Martensite Transformation as an Example", Master Thesis.. Thesis at: Universität Duisburg-Essen and Ruhr-Universität Bochum.
BibTeX:
@mastersthesis{Sar:2018:cra,
  author = {M. Sarhil},
  title = {Constitutive Relations and Homogenization Assumptions in Phase-Field Models with Elasticity: Martensite Transformation as an Example},
  journal = {Master Thesis},
  school = {Universität Duisburg-Essen and Ruhr-Universität Bochum},
  year = {2018}
}

Stand: 29.04.2019