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Wydział Mechaniczny Technologiczny, Politechnika Śląska
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Head of the
Division of Computational Mechanics and Applied Informatics

Dr hab. inż. Piotr Fedeliński Prof. Pol. Śl.

e-mail: Piotr.Fedelinski@polsl.pl
Faculty of Mechanical Engineering
room 105
phone +48 32 237 1635



                                     

Professional positions:

  • Head of the Division of Computational Mechanics and Applied Informatics
  • Vice-Dean for Science and Cooperation with Industry

Scientific research:

  • computational mechanics,
  • dynamics of deformable bodies,
  • fracture mechanics,
  • micromechanics,
  • sensitivity analysis and optimization of structures,
  • boundary element method,
  • finite element method

Teaching activities:

  • strength of materials,
  • theory of plasticity,
  • fracture mechanics,
  •  continuum mechanics,
  •  theoretical mechanics,
  •  finite element method,
  •  boundary element method

Education:

  • 1976-1981
    Silesian University of Technology, Faculty of Mechanical Engineering, M.Sc., Eng., Field: Heavy Duty Machines, Specialization: Mechanics Grade: very good with distinction
  • 1991
    Silesian University of Technology, Faculty of Mechanical Engineering, Ph.D., Field: Design and Exploitation of Machines, Specialization: Computational Mechanics “Boundary element method for shape optimal design of vibrating structures”, supervisor: Prof. Tadeusz Burczyński
  • 2000
    Silesian University of Technology, Faculty of Mechanical Engineering, D.Sc., Field: Design and Exploitation of Machines, Specialization: Computational Mechanics “The boundary element method in dynamic analysis of deformable structures with cracks”

Experience:

  • 1981-1992
    Silesian University of Technology - assistant
  • 1992-2002
    Silesian University of Technology - lecturer
  • since 2003
    Silesian University of Technology – professor
  • 1991
    scientific visit - 6 months, TEMPUS programme, Institut for Maskinteknik, Aalborg Universitet, Denmark
  • 1992-1995
    Postdoctoral Research Fellow - 2.5 years, Wessex Institute of Technology, University of Portsmouth, Great Britain
  • 1999
    lecturer - 2 months, Faculdade de Engenharia Mechanica, Departamento de Mecanica Computacional, Universidade Estudal de Campinas, Brazil

Supervision of Ph.D. theses:

  • 2005 – Radosław Górski, Ph.D, Eng. “Dynamic analysis and optimization of composite materials by the boundary element method”
  • 2006 – Grzegorz Dziatkiewicz, Ph.D, Eng. “Analysis of coupled mechanical and electrical fields in piezoelectric materials by the boundary element method”
  • 2007 – Tomasz Czyż, Ph.D, Eng. “Analysis of dynamically loaded elasto-plastic structures by the boundary element method”
  • 2009 – Jacek Ptaszny, Ph.D, Eng. “Fast multipole boundary element method for analysis of linear elastic structures”

Membership of Scientific Committees and Societies:

  • Computational Methods and Optimization, Committee of Mechanics, Polish Academy of Sciences
  • Polish Society of Theoretical and Applied Mechanics
  • Polish Association of Computational Mechanics
  • International Society for Structural and Multidisciplinary Optimization

Awards:

  • 1980 – Copernicus medal “Primus inter pares”
  • 2002 – Silver Cross of Merit
  • 2002 – Medal of Merit for the Silesian University of Technology
  • 2008 - Medal of the National Education Commission
  • 2011 – Golden Cross of Merit
  • 2013 – Silver Medal of Merit for the Polish Society of Theoretical and Applied Mechanics

Selected works:

  • Burczyński T., Fedeliński P., Shape sensitivity analysis of natural frequencies of structures using boundary elements, Structural Optimization, Vol. 2, pp. 47-54 (1990).
  • Burczyński T., Fedeliński P., Shape sensitivity analysis and optimal design of static and vibrating systems using the boundary element method, Cybernetics and Control, Vol. 19, No 3-4, pp. 47-71 (1990).
  • Burczyński T., Fedeliński P., Boundary elements in shape design sensitivity analysis and optimal design of vibrating structures, Engineering Analysis with Boundary Elements, Vol. 8, No 6, pp. 294-300 (1991).
  • Fedeliński P., Burczyński T., Shape optimal design of vibrating structures using boundary elements, Zeitschrift für Angewandte Mathematik und Mechanik, Vol. 71, No 6, pp. 726-728 (1991).
  • Fedeliński P., Aliabadi M.H., Rooke D.P., The dual boundary element method for structures subjected to inertial forces, Boundary Element Abstracts, Vol. 4, No 4, pp. 150-152 (1993).
  • Fedeliński P., Aliabadi M.H., Rooke D.P., The dual boundary element method: J-integral for dynamic stress intensity factors, International Journal of Fracture, Vol. 65, No 4, pp. 369-381 (1994).
  • Fedeliński P., Aliabadi M.H., Rooke D.P., A single-region time-domain BEM for dynamic crack problems, International Journal of Solids and Structures, Vol. 32, No 24, pp. 3555-3571 (1995).
  • Fedeliński P., Aliabadi, M.H., Rooke, D.P., Boundary element formulations for dynamic cracked structures, Chapter 2, Dynamic Fracture Mechanics, Ed. Aliabadi M.H., Computational Mechanics Publications, pp. 61-100 (1995).
  • Fedeliński P., Aliabadi, M.H., Rooke, D.P., The Laplace transform DBEM method for mixed-mode dynamic crack analysis, Computers and Structures, Vol. 59, No 6, pp. 1021-1031 (1996).
  • Fedeliński P., Aliabadi M.H., Rooke D.P., Boundary element formulations for the dynamic analysis of cracked structures, Engineering Analysis with Boundary Elements, Vol. 17, pp. 45-56 (1996).
  • Fedeliński P., Aliabadi, M.H., Rooke, D.P., The time-domain DBEM for rapidly growing cracks, International Journal for Numerical Methods in Engineering, Vol. 40, pp. 1555-1572 (1997).
  • Sladek J., Sladek V., Fedeliński P., Integral formulation for elastodynamic T-stresses, International Journal of Fracture, Vol. 84, pp. 103-116 (1997).
  • Sladek J., Sladek V., Fedeliński P., Contour integrals for mixed-mode crack analysis of the second fracture parameter, Theoretical and Applied Fracture Mechanics, Vol. 27, pp. 115-127 (1997).
  • Fedeliński P., The three-dimensional boundary element method in dynamic analysis of cracks, Building Research Journal, Vol. 46, pp. 257-275 (1998).
  • Fedeliński P., The boundary element method in dynamic crack analysis, Theoretical and Applied Mechanics, Vol. 36, pp. 403-421 (1998).
  • Sladek J., Sladek V., Fedeliński P., Computation of the second fracture parameter in elastodynamics by the boundary element method, Advances in Engineering Software, Vol. 30, pp.725-734 (1999).
  • Fedeliński P., The boundary element method in dynamic analysis of deformable structures with cracks, Silesian University of Technology Publishing House, Gliwice, Mechanics, Vol. 137, 132 pages (2000) (in Polish).
  • Fedeliński P., Integral transform methods in 3-D dynamic fracture mechanics, in “IUTAM/IACM/IABEM Symposium on Advanced Mathematical and Computational Mechanics Aspects of the Boundary Element Method”, Ed. Burczyński T., Kluwer Academic Publishers, Dordrecht-Boston-London, pp.111-121 (2001).
  • Albuquerque E.L., Sollero P., Fedeliński P., Dual reciprocity boundary element method in Laplace domain applied to anisotropic dynamic crack problems, Computers and Structures, Vol. 81, pp. 1703-1713 (2003).
  • Albuquerque E.L., Sollero P., Fedeliński P., Free vibration analysis of anisotropic material structures using the boundary element method, Engineering Analysis with Boundary Elements, Vol. 27, pp. 977-985 (2003).
  • Fedeliński P., Boundary element method in dynamic analysis of cracks, Engineering Analysis with Boundary Elements, Vol. 28, pp. 1135-1147 (2004).
  • Górski R., Fedeliński P., Analysis, optimization and identification of composite structures using boundary element method. Journal of Computational and Applied Mechanics, A Publication of the University of Miskolc, Vol. 6, No. 1, pp. 53-65 (2005).
  • Fedeliński P., Górski R., Analysis and optimization of dynamically loaded reinforced plates by the coupled boundary and finite element method, Computer Modeling in Engineering and Sciences, Vol. 15, No 1, pp. 31-40 (2006).
  • Dziatkiewicz G., Fedeliński P., Dynamic analysis of piezoelectric structures by the dual reciprocity boundary element method, Computer Modeling in Engineering and Sciences, Vol. 17, No 1, pp. 35-46 (2007).
  • Ptaszny J., Fedeliński P., Fast multipole boundary element method for analysis of plates with many holes, Archives of Mechanics, Vol. 59, No 4-5, pp. 385-401 (2007).
  • Fedeliński P., Górski R., Czyż T., Dziatkiewicz G., New applications of the boundary element method in dynamics of solids, Proceedings in Applied Mathematics and Mechanics, Vol. 8, pp. 10003-10006 (2008).
  • Ptaszny J., Fedeliński P., Stress analysis of linear elastic structures by the fast multipole boundary element method, Computer Assisted Mechanics and Engineering Sciences, Vol. 16, No. 3-4, pp. 223-240 (2009).
  • Ptaszny J., Fedeliński P., Numerical homogenization by using the fast multipole boundary element method, Archives of Civil and Mechanical Engineering, Vol. 11, No. 1, pp. 181-193 (2011).
  • Ptaszny J., Fedeliński P., Numerical homogenization of polymer/clay nanocomposites by the boundary element method, Archives of Mechanics, Vol. 63, No. 5-6, pp. 517-532 (2011).
  • Fedeliński P., Analysis of representative volume elements with random microcracks, Chapter 17, Computational Modelling and Advanced Simulation, Eds Murin J. et al., Computational Methods in Applied Sciences 24, Springer Science+Business Media B.V., pp. 333-341 (2011).
  • Dziatkiewicz G., Fedeliński P., Indirect Trefftz method for solving Cauchy problem of linear piezoelecricity, Chapter 3, Computational Modelling and Advanced Simulation, Eds Murin J. et al., Computational Methods in Applied Sciences 24, Springer Science+Business Media B.V., pp. 49-65 (2011).
  • Fedeliński P., Computer modeling of dynamic fracture experiments, Key Engineering Materials, Vol. 454, Trans Tech Publications, Switzerland, pp. 113-125 (2011).
  • Fedeliński P., Górski R., Dziatkiewicz G., Ptaszny J., Computer modelling and analysis of effective properties of composites, Computer Methods in Materials Science, Vol. 11, No. 1, pp. 3-8 (2011).
  • Fedeliński P., Computer modeling and analysis of microstructures with fibres and cracks, Journal of Achievements in Materials and Manufacturing Engineering, Vol. 54, No. 2, pp. 242-249 (2012).
  • Fedeliński P. (Ed.) Czyż T., Dziatkiewicz G., Fedeliński P., Górski R., Ptaszny J., Advanced computer modelling in micromechanics, Silesian University of Technology Publishing House, Gliwice, Monograph 427, 124 pages (2013).
  • Fedeliński P., Czyż T., Homogenization of elasto-plastic materials by the boundary element method, Computer Methods in Materials Science, Vol. 13, No. 3, pp. 395-401 (2013).
  • Fedeliński P., Górski R., Czyż T., Dziatkiewicz G., Ptaszny J., Analysis of effective properties of materials by using the boundary element method, Archives of Mechanics, Vol. 66, No. 1, pp. 1-17 (2014).
Schedule on polsl.pl

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