Stanisław Stupkiewicz, professor
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Short CV |
Membership |
Publications |
Research interests |
PhD supervision |
Positions available |
Short CV
- 1989 - MSc at the Warsaw University of Technology (PW, MEiL)
- 1996 - PhD at IPPT
- 2006 - habilitation at IPPT
- 2011 - full professor (title)
Employment:
Membership
- Archives of Mechanics:
member of the Editorial Committee since 2007, Section Editor since 2011
- The Committee on Mechanics of the Polish Academy of
Sciences (Komitet Mechaniki PAN): member since 2007, Scientific Secretary (2011-2015)
Publications
>>> Full list of publications <<<
Selected recent publications:
- J. Korelc and S. Stupkiewicz (2014).
Closed-form matrix exponential and its application
in finite-strain plasticity,
International Journal for Numerical Methods in Engineering,
vol. 98, 960-987.
- S. Stupkiewicz, A. Piccolroaz and D. Bigoni (2015).
Finite-strain formulation and FE implementation
of a constitutive model for powder compaction,
Computer Methods in Applied Mechanics and Engineering,
vol. 283, 856-880.
- I. Temizer and S. Stupkiewicz (2016).
Formulation of the Reynolds equation
on a time-dependent lubrication surface,
Proceedings of the Royal Society A,
vol. 472, 20160032.
- K. Tuma, S. Stupkiewicz and H. Petryk (2016).
Size effects in martensitic microstructures:
finite-strain phase field model versus sharp-interface approach,
Journal of the Mechanics and Physics of Solids,
vol. 95, 284-307.
- H. Petryk and S. Stupkiewicz (2016).
A minimal gradient-enhancement
of the classical continuum theory of crystal plasticity. Part I: The hardening law,
Archives of Mechanics,
vol. 68, 459-485.
- S. Stupkiewicz and H. Petryk (2016).
A minimal gradient-enhancement
of the classical continuum theory of crystal plasticity. Part II: Size effects,
Archives of Mechanics,
vol. 68, 487-513.
Research interests
- micromechanics of interfaces and interface layers
- multiscale modelling of shape memory alloys
- interfacial energy effects in 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
- Jakub Lengiewicz (PhD completed in 2009)
- Przemysław Sadowski (PhD completed in 2009)
Suggested research topics for PhD students:
- Modelling of evolution of martensitic microstructures in shape memory alloys
(more details: in English,
in Polish)
- Multiscale modelling of contact interactions
(more details: in English,
in Polish)
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. We have open positions for:
- post-doctoral researchers,
- Ph.D. students.
Interested candidates are encouraged to contact me by email: sstupkie (at) ippt.pan.pl.
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Poszukujemy kandydatów do podjęcia:
o pracy naukowej (post-doc / adiunkt),
o studiów doktoranckich,
i prowadzenia badań w zakresie: modelowania wieloskalowego, mechaniki materiałów, mechaniki kontaktu, metod obliczeniowych w mechanice, itp.
Osoby zainteresowane proszę o kontakt: sstupkie (at) ippt.pan.pl.
Last modified: January 16, 2017
