Stanisław Stupkiewicz
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Short CV |
Membership |
Publications |
Research interests |
PhD supervision |
Positions available (NEW!) |
Short CV
- 1989 - MSc at the Warsaw University of Technology (PW, MEiL)
- 1996 - PhD at IPPT
- 2006 - habilitation at IPPT
- 2011 - full professor
Employment:
Membership
Editorial boards:
Publications
>>> Full list of publications <<<
Selected recent publications:
- J. Lengiewicz, M. de Souza, M.A. Lahmar, C. Courbon, D. Dalmas, S. Stupkiewicz and J. Scheibert (2020).
Finite deformations govern the anisotropic shear-induced
area reduction of soft elastic contacts,
Journal of the Mechanics and Physics of Solids,
vol. 143, 104056.
- K. Tuma, M. Rezaee-Hajidehi, J. Hron, P.E. Farrell and S. Stupkiewicz (2021).
Phase-field modeling of multivariant martensitic
transformation at finite-strain: Computational aspects and large-scale finite-element simulations,
Computer Methods in Applied Mechanics and Engineering,
vol. 377, 113705.
- M. Rezaee-Hajidehi, P. Sadowski and S. Stupkiewicz (2022).
Deformation twinning as a displacive transformation:
Finite-strain phase-field model of coupled twinning and crystal plasticity,
Journal of the Mechanics and Physics of Solids,
vol. 163, 104885.
- M. Ryś, S. Stupkiewicz and H. Petryk (2022).
Micropolar regularization of crystal plasticity
with the gradient-enhanced incremental hardening law,
International Journal of Plasticity,
vol. 156, 103355.
- M. Rezaee-Hajidehi and S. Stupkiewicz (2023).
Predicting transformation patterns in pseudoelastic
NiTi tubes under proportional axial-torsion loading,
International Journal of Solids and Structures,
vol. 281, 112436.
- J. Dobrzański and S. Stupkiewicz (2024).
Towards a sharper phase-field method: A hybrid
diffuse–semisharp approach for microstructure evolution problems,
Computer Methods in Applied Mechanics and Engineering,
vol. 423, 116841.
Research interests
- micromechanics of interfaces and interface layers
- multiscale modelling of shape memory alloys
- interfacial energy effects in martensitic transformations
- phase-field modelling of martensitic transformations
- plasticity: grain refinement, size effects
- computational plasticity
- constitutive modelling of contact phenomena
- multiscale modelling of contact phenomena
- computational contact mechanics
- sensitivity analysis and optimization
- finite element method and symbolic code generation (collaboration with J. Korelc, developer of AceGen/AceFEM)
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martensitic microstructures, interfacial energy, size effects |
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phase-field modelling of martensitic transformations |
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sensitivity analysis, computational contact mechanics |
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contact micromechanics, thermal contact conductance |
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macroscopic model of pseudoelasticity in shape memory alloys (SMA) |
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gradient crystal plasticity, indentation size effect |
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soft elasto-hydrodynamic lubrication (soft EHL) |
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finite element modelling of progressive wear |
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PhD supervision
Positions available
We are continuously looking for good candidates willing to pursue research in the field of multiscale modelling, mechanics of materials, contact mechanics, computational mechanics, etc.
A call is open within a new project (NCN OPUS-LAP) on phase-field modelling of omega phase in metastable beta-Ti alloys (short desription of the project):
Interested candidates are encouraged to contact me by email: sstupkie (at) ippt.pan.pl.
Last modified: March 14, 2024