KATEDRA MECHANIKI I INFORMATYKI STOSOWANEJ
Wydział Mechaniczny, Wojskowa Akademia Techniczna
00-908 Warszawa, ul. Gen. Witolda Urbanowicza 2
tel.: +48 261 83-98-49, fax: +48 261 83-93-55, e-mail: kmiis@wat.edu.pl




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Professor Marian Klasztorny, Ph.D., D.Sc., Eng.

Office address
Military University of Technology
Faculty of Mechanical Engineering
Department of Mechanics and Applied Computer Science
Building 62, Room 41
2 Gen. Witold Urbanowicz Street
00-908 Warsaw, Poland

Phones, E-mail addresses
Mobile: +48 605 953 533
Office phone: +48 261 839 048
Office fax: +48 261 839 355
Office E-mail: marian.klasztorny@wat.edu.pl
Private E-mail: m.klasztorny@gmail.com



Education, scientific title, scientific degrees
Employment record
Research Activity
Position in academic community (selected data)
Scientific and technical achievements
Publications
    Scientific monographs and handbooks (selected)
    Publications in scientific journals (selected)


  Education, scientific title, scientific degrees

Institution Scientific Field Sci. title / degree Year

Wroclaw University of Technology,
Faculty of Civil & Hydro Engineering, Poland

Civil Engineering, Mechanics Professor 2002

Wroclaw University of Technology,
Faculty of Civil & Hydro Engineering, Poland

Civil Engineering DSc 1987

Wroclaw University of Technology,
Institute of Civil Engineering,
Faculty of Civil & Hydro Engineering Poland

Civil Engineering PhD 1977

Wroclaw University of Technology,
Faculty of Civil & Hydro Engineering, Poland

Civil Engineering MSc 1972

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  Employment record

Years Position, institution
2016-2020

deputy dean for teaching affairs, Faculty of Mechanical Engineering, Military University of Technology, Poland

2014-2016

agent manager for doctoral studies, Department of Mechanics and Applied Computer Science, Faculty of Mechanical Engineering, Military University of Technology, Poland

2008-2014

deputy manager, Department of Mechanics and Applied Computer Science, Faculty of Mechanical Engineering, Military University of Technology, Poland

science 2007

professor, Department of Mechanics and Applied Computer Science, Faculty of Mechanical Engineering, Military University of Technology, Poland

1995-2007

associate professor, Department of Mechanics, Institute of Mechanics and Design, Faculty of Production Engineering, Warsaw University of Technology, Poland

1988-1995

associate professor, Department of Dynamics of Structures, Institute of Civil Engineering, Faculty of Civil & Hydro Engineering, Wroclaw University of Technology, Poland

1977-1988

assistant professor, Department of Dynamics of Structures, Institute of Civil Engineering, Faculty of Civil & Hydro Engineering, Wroclaw University of Technology, Poland

1974-1977

senior assistant, Department of Dynamics of Structures, Institute of Civil Engineering, Faculty of Civil & Hydro Engineering, Wroclaw University of Technology, Poland

1972-1974

assistant, Department of Dynamics of Structures, Institute of Civil Engineering, Faculty of Civil & Hydro Engineering, Wroclaw University of Technology, Poland


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  Research Activity

Special fields in Civil Engineering:
  • statics/dynamics/design of highway and railway bridges, including random vibrations;

  • statics/dynamics/design of footbridges, including GFRP footbridges;

  • statics/dynamics/design of GFRP covers of tanks;

  • dynamics of block and frame foundations for machines;

  • vibration mitigation of light-damped structures with tuned mass dampers;

  • computer methods in dynamics of structures;

  • structural identification of dynamic models of structures;

  • use of CAD/CAE systems and finite element method for modelling and simulation of static and dynamic processes of bridge/track/high-speed train systems, GFRP structures;

  • modelling and simulation of crash tests of curved road safety barriers.

Special fields in Mechanics:
  • numerical integration of linear and nonlinear equations of motion;
  • elastic and viscoelastic constitutive modelling of plastics, polymer-matrix composites and laminates;
  • dynamic modelling of machine tools;
  • dynamics of rail-vehicles moving at high speeds;
  • protection of light-armoured vehicle crewmen against blast of mines and IEDs;
  • numerical modelling, simulation and experimental validation/verification of static tests performed on GFRP plates and shells, and metal–composite joints;
  • experimental identification of mechanical properties of plastics and polymer-matrix composites;
  • experimental tests and modelling of advanced materials;
  • design, modelling and simulation of composite foam overlays assembled with guide rails of road safety barriers;
  • use of CAD/CAE systems and finite element method in statics/dynamics/design of mechanical systems.



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  Position in academic community (selected data)

  • member of Section of Structural Mechanics and Materials, Committee of Civil Engineering and Water Sciences, Polish Academy of Sciences (1984-1988, 1988-1992, 1992-1996, 1996-2000, 2000-2004, 2004-2008, 2008-2012, 2012-2016, 2016-2020);

  • member of Section Composite Materials, Committee of Materials Science, Polish Academy of Sciences (2004-2008);

  • member of Section of Computer Methods for Mechanics, Committee of Mechanics, Polish Academy of Sciences (1996-2000, 2000-2004, 2004-2008);

  • member of Editorial Board of Archives of Civil Engineering (an int. journal) (1999-2007);

  • member of Editorial Board of Composites Theory and Practice (an int. journal) (since 2014);

  • member of Int. Scientific Advisory Committee of 7th Int. Conf. on Computer Methods in Composite Materials and Structures, Bologna, Italy (2000); session chairman;

  • member of Int. Scientific Advisory Committee of 1st Int. Conf. on High Performance Structures and Composites, Seville, Spain (2002);

  • member of Int. Scientific Advisory Committee of 1st Int. Conf. on Materials Characterisation, Santa Fe, New Mexico, USA (2003) and 2nd Int. Conf. on Materials Characterisation, Portland, Maine, USA (2005);

  • scientific secretary of Int. Scientific Committee of 39. Int. Scientific Congress on Powertrain and Transport Means, EUROPEAN KONES 2012, Ryn, Poland (2012);

  • member of National Scientific Committee of 16th Int. Conf. on Computer Methods in Mechanics, Czestochowa, Poland (2005), 17th Int. Conf. on Computer Methods in Mechanics, Lodz, Poland (2007), 18th Int. Conf. on Computer Methods in Mechanics, Lodz, Poland (2009), 19th Int. Conf. on Computer Methods in Mechanics, Warsaw, Poland (2011), and 20th Int. Conf. on Computer Methods in Mechanics, Poznan, Poland (2013);

  • chairman of Organizing Committee of a series of national conferences on Polymer-matrix Composites, Wisla, Poland (1997, 1999, 2001, 2003, 2005);

  • scientific secretary of Scientific Committee of 12th National Conference on Computer Technology in Engineering, Slok, Poland, 2011;

  • supervisor of 6 PhD dissertations;

  • auxiliary supervisor of 6 PhD dissertations;

  • manager of 12 research and development projects financed by Polish state institutions.


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  Scientific and technical achievements

Web of Science (2017/11/24): Hirsh index H=6, number of citations without own citations CN=85
3 scientific monographs;
5 handbooks;
116 papers in scientific and technical journals (29 papers in journals included in JCR);
120 papers in international and national conference proceedings;
participation in 22 research and development projects financed by Polish state institutions;
more than 50 calculation programmes for computer-aided research;
4 patents;
2 patent applications;
22 scientific-technical civil engineering expertises.

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  Publications 

Scientific monographs and handbooks (selected)

  1. Klasztorny M., Langer J., Mironowicz W.: Dynamic Analysis of Block Foundations for Machines, Wroclaw Univ. Technol. Publishing, Wroclaw, 1978 (in Polish).
  2. Klasztorny M.: Vibrations of Single-track Railway Bridges under High-speed Trains, Wroclaw Univ. Technol. Publishing, Wroclaw, 1987 (in Polish).
  3. Klasztorny M.: Dynamics of Beam Bridges under High-speed Trains, Technical and Scientific Publishing (WNT), Warsaw, 2005 (in Polish).
  4. Klasztorny M.: General Mechanics, Silesian Educational Publisher, Wroclaw, 2005 (in Polish).
  5. Klasztorny M., Niezgoda T.: General Mechanics. Theoretical Bases, Solved Tasks, Warsaw Univ. Technol. Publishing House, Warsaw, 2006 (in Polish).
  6. Klasztorny M.: Strength of Materials, Silesian Educational Publisher, Wroclaw, 2013 (in Polish).
  7. Klasztorny M., Kurowski Z.: Fundamentals of Solid Mechanics, Military Univ. Technol. Publishing, Warsaw, 2014 (in Polish).
  8. Klasztorny M.: Engineering Mechanics, Silesian Educational Publisher, Wroclaw, 2017 (in Polish).

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Publications in scientific journals (selected)

  1. Klasztorny M., Langer J.: Dynamic response of single-span beam bridges to series of moving loads, Earthquake Engineering & Structural Dynamics, 19, 8 (1990), pp.1107–1124.
  2. Klasztorny M., Śniady P.: Numerical solution for response of beams with moving mass, ASCE J. for Structural Engineering, 117, 5 (1991), pp.1568–1569.
  3. Langer J., Klasztorny M., Bagalaty S.: Postintegration methods for numerical integration of non-linear dynamic equations of motion, Int. J. for Numerical Methods in Engineering, 33, 5 (1992), pp. 889–905.
  4. Klasztorny M.: Reduction of steady-state forced vibrations of structures with dynamic absorbers, Earthquake Engineering & Structural Dynamics, 24, 8 (1995), pp.1155–1172.
  5. Wilczyński A., Klasztorny M.: Determination of complex compliances of fibrous polymeric composites, Journal of Composite Materials, 34, 1 (2000), pp.1–27.
  6. Klasztorny M., Wilczyński A.: Constitutive equations of viscoelasticity and estimation of viscoelastic parameters of unidirectional fibrous polymeric composites, Journal of Composite Materials, 34, 19 (2000), pp.1624–1639.
  7. Klasztorny M.: Spatial vibrations of a multi-span railway steel bridge under a train moving at high speed, Archives of Civil Engineering, 46, 2 (2000), pp.287–311.
  8. Klasztorny M.: Vertical vibrations of a multi-span beam steel bridge induced by a superfast passenger train, Structural Eng. & Mechanics, An Int. Journal, 12, 3 (2001), pp.267–281.
  9. Klasztorny M., Wilczyński A., Witemberg-Perzyk D.: A rheological model of polymeric materials and identification of its parameters, J. of Theoretical and Applied Mechanics, 39, 1 (2001) pp.13–32.
  10. Klasztorny M.: The inverse problem in the reinforcement theory of fibrous composites, Composites Science & Technology, 62, 1 (2002), pp.107–119.
  11. Klasztorny M., Gieleta R.: The HWKK rheological model for resins, J. of Theoretical and Applied Mechanics, 40, 3 (2002), pp.939–960.
  12. Śniegulska D., Szafarczyk M., Klasztorny M.: An approximate method for determining static and dynamic stiffnesses of machine tools with rolling guideways, Archives of Civil & Mechanical Eng., 4, 2 (2004), pp. 49–62.
  13. Klasztorny M.: Constitutive modelling of resins in compliance domain, J. Mechanics of Composite Materials, 40, 4 (2004), pp. 349–358.
  14. Klasztorny M.: Constitutive modelling of resins in stiffness domain, J. Mechanics of Composite Materials, 40, 5 (2004), pp. 443–452.
  15. Klasztorny M.: Non-linear vibrations of a moving rail-vehicle excited by snaking and lateral impacts of wheel sets, Comp. Assisted Mechanics & Eng. Sciences, 12 (2005), pp. 341–361.
  16. Klasztorny M., Urbański A.: Application of the fin
  17. ite element method to improve quasi-exact reinforcement theory of fibrous polymeric composites, J. Mechanics of Composite Materials, 41, 1 (2005), pp. 55–64.
  18. Klasztorny M.: Numerical simulation of rheological processes in thermohardening plastics under stress control, J. Mechanics of Composite Materials, 43, 2 (2007), pp. 133–140.
  19. Hawryszków P., Klasztorny M.: Protection of suspension footbridges with tuned mass dampers against excessive resonant vertical vibrations caused by vandal pedestrian loads, Archives of Civil Engineering, 53, 4 (2007), pp. 607–637.
  20. Klasztorny M.: Coupled and uncoupled constitutive equations of linear elasticity and viscoelasticity of orthotropic materials, J. of Theoretical and Applied Mechanics, 46, 1 (2008), pp. 3–20.
  21. Pawlikowski M., Klasztorny M., Skalski K.: Studies on constitutive equation that models bone tissue, Acta of Bioengineering and Biomechanics, 10,4 (2008) pp. 39–47.
  22. Klasztorny M., Konderla P., Piekarski R.: An exact stiffness theory for unidirectional xFRP composites, Mechanics of Composite Materials, 45, 1 (2009), pp. 77–104.
  23. Klasztorny M., Bondyra A., Szurgott P., Nycz D.: Numerical modelling of GFRP laminates with MSC.Marc system and experimental validation, Computational Materials Science, 64 (2012), pp. 151-156.
  24. Klasztorny M., Bondyra A., Romanowski R., Nycz D., Gotowicki P.: Numerical modelling and simulation of RN-B composite joint tensile test and experimental validation, Composites Theory and Practice, 12, 3 (2012) 198-204.
  25. Nycz D., Bondyra A., Klasztorny M., Gotowicki P.: Numerical modelling and simulation of the composite segment bending test and experimental validation, Composites Theory and Practice,12, 2 (2012), pp. 126-131).
  26. Swierczewski M., Klasztorny M., Dziewulski P., Gotowicki P.: Numerical Modelling, Simulation and Validation of SPS and PS Systems Loaded by 6 kg TNT Blast Shock Wave, Acta Mechanica et Automatica, 6, 3 (2012), pp. 77-87.
  27. Bondyra A., Klasztorny M., Szurgott P., Gotowicki P.: Numerical Modelling and Experimental Verification of Glass - Polyester Mixed Laminate Beam Bending Test, Acta Mechanica et Automatica, 6, 3 (2012), pp. 11-18.
  28. Mazurkiewicz L., Kolodziejczyk D., Damaziak K., Malachowski J., Klasztorny M., Baranowski P., Load carrying capacity numerical study of I-beam pillar structure with blast protective panel, Bulletin of the Polish Academy of Sciences – Technical Sciences, 61, 2 (2013), pp. 451–457.
  29. Klasztorny M., Nycz D.: Effect of cross-section geometry on load capacity of single-wave composite segment, Composites Theory and Practice, 13, 1 (2013), pp. 40-46.
  30. Podworna M., Klasztorny M.: Vertical vibrations of composite bridge / track structure / high-speed train systems. Part 1: Series-of-types of steel-concrete bridges, Bulletin of the Polish Academy of Sciences – Technical Sciences, 62, 1 (2014), pp.165-179.
  31. Podworna M., Klasztorny M.: Vertical vibrations of composite bridge / track structure / high-speed train systems. Part 2: Physical and mathematical modelling, Bulletin of the Polish Academy of Sciences – Technical Sciences, 62, 1 (2014), pp.181-196.
  32. 31. Podworna M., Klasztorny M.: Vertical vibrations of composite bridge / track structure / high-speed train systems. Part 3: Deterministic and random vibrations of exemplary system, Bulletin of the Polish Academy of Sciences – Technical Sciences, 62, 2 (2014), pp.305-320.
  33. Podworna M., Klasztorny M.: Vertical vibrations of composite bridge / track structure / high-speed train systems. Part 1: Series-of-types of steel-concrete bridges, Bulletin of the Polish Academy of Sciences – Technical Sciences, 62, 1 (2014), pp.165-179.
  34. Podworna M., Klasztorny M.: Vertical vibrations of composite bridge / track structure / high-speed train systems. Part 2: Physical and mathematical modelling, Bulletin of the Polish Academy of Sciences – Technical Sciences, 62, 1 (2014), pp.181-196.
  35. Podworna M., Klasztorny M.: Vertical vibrations of composite bridge / track structure / high-speed train systems. Part 3: Deterministic and random vibrations of exemplary system, Bulletin of the Polish Academy of Sciences – Technical Sciences, 62, 2 (2014), pp.305-320.
  36. Bondyra A., Klasztorny M., Muc A.: Design of composite tank covers, Composite Structures, 134 (2015), pp. 72-81.
  37. Klasztorny M., Nycz D.B., Szurgott P.: Modelling and Simulation of Crash Tests of N2-W4-A Category Safety Road Barrier in Horizontal Concave Arc, Int. Journal of Crashworthiness, 21, 6 (2016), pp. 644-659.
  38. Chróścielewski J., Klasztorny M., Nycz D., Sobczyk B.: Loading capacity and serviceability conditions for footbridges made of fibre-reinforced polymer laminates. Warunki nośności i użytkowalności w odniesieniu do kładek z laminatów polimerowych. Roads and Bridges – Drogi i Mosty, 13, 3 (2014), pp. 189-202.
  39. Klasztorny M., Podworna M.: Influence of Random Track Irregularities on Dynamic Response of Bridge / Track Structure / High-Speed Train Systems. Journal of Civil Engineering and Architecture, 8 , 10 (2014) 1335–1352.
  40. Klasztorny M., Nycz D.B., Romanowski R.K.: Rubber/Foam/Composite Overlay on Guide B of Barrier Located on Road bend, The Archives of Automotive Engineering – Archiwum Motoryzacji, 69, 3 (2015), pp. 65–86.
  41. Klasztorny M., Nycz D., Cedrowski M.: Modelling, simulation and validation of bending test of box segment formed as two composite shells glued together, Composites Theory and Practice, 15, 2 (2015), pp. 88-94.
  42. Klasztorny M., Nycz D.B.: Influence of temperature and ageing on load capacity of glass-vinylester box beam, Composites Theory and Practice, 16, 2 (2016) 108–116.
  43. Chróścielewski J., Miśkiewicz M., Wilde K., Klasztorny M., Romanowski R.: Powłokowa kompozytowa kładka dla pieszych o konstrukcji przekładkowej, Archiwum Instytutu Inżynierii Lądowej, Wyd. PP, Nr 18/2014, ss. 7–15.
  44. Mazurkiewicz Ł., Malachowski J., Klasztorny M., Kolodziejczyk D., Baranowski P., Damaziak K.: Carbon-epoxy/foam panel for protective aims – computational and experimental study, In: Recent Advances in Computational Mechanics, T. Łodygowski, J. Rakowski, P. Litewka (eds.), pp. 49-56, © 2014 Taylor & Francis Group, London, ISBN 978-1-138-02482-3.
  45. Klasztorny M., Podworna M.: Influence of random track irregularities on dynamic response of bridge / track structure / high-speed train systems. In: Proceedings of the 9th International Conference on Structural Dynamics, EURODYN 2014, Porto, Portugal, 30 June – 2 July 2014, A. Cunha, E. Caetano, P. Ribeiro, G. Müller (eds.), pp. 1225-1231, ISSN: 2311-9020, ISBN: 978-972-752-165-4.
  46. Chróścielewski J., Klasztorny M., Miśkiewicz M., Romanowski R., Wilde K.: Innovative design of GFRP sandwich footbridge. In: Footbridge 2014 5th International Conference on Footbridges: Past, Present & Future, London, England, 16–18 July 2014, Ed.: L. Debell, H. Russel, USB Proceed., Paper #1250, pp. 1–8.
  47. Klasztorny M., Chróścielewski J., Szurgott P., Romanowski R.: Design and numerical testing of 5-box GFRP shell footbridge. In: Footbridge 2014 5th International Conference on Footbridges: Past, Present & Future, London, England, 16–18 July 2014, Ed.: L. Debell, H. Russel, USB Proceed., Paper #1094, pp. 1–8.
  48. Klasztorny M., Nycz D.: Use of strengthening and energy-absorbing covering to guide bar of curved road barrier. In: 14th Pan-American Congress of Applied Mechanics, PACAM XIV, Santiago, Chile, 24–28 March 2014, CD Proceed., pp. 1–6.
  49. Klasztorny M., Nycz D.B.: Modelling and Simulation of a TB11 Crash Test of a N2-W4-A Category Safety Barrier on a Road Bend, in on-line book: The Fifteenth International Conference on Civil, Structural and Environmental Engineering Computing, J. Kruis, Y. Tsompanakis, B.H.V. Topping (Eds.), Civil-Comp Press, Stirlingshire, United Kingdom, 2015, ISSN 1759-3433, Paper 192, pp. 1-20, doi:10.4203/ccp.108.192.
  50. Klasztorny M., Nycz D.B., Romanowski R.K., Gotowicki P., Kiczko A., Rudnik D.: Effects of operating temperature and accelerated environmental ageing on glass-vinylester composite mechanical properties, Mechanics of Composite Materials, 53:3 (2017), pp. 335-350.
  51. Klasztorny M., Zielonka K., Nycz D.B., Posuniak P., Romanowski R.K., Experimental validation of simulated TB32 crash tests for SP-05/2 barrier on horizontal concave arc without and with composite overlay, Archives of Civil and Mechanical Engineering, 18:2 (2018), pp. 339-355.
  52. Klasztorny M, Nycz D., Labuda R., Modelling, simulation and experimental validation of bend tests on GFRP laminate beam and plate specimens, Composite Structures, 184 (2018), pp. 604-612.
  53. Klasztorny M., Nycz D.B.: Influence of temperature and ageing on load capacity of glass-vinylester box beam, Composites Theory and Practice, 16, 2 (2016), pp. 108–116.
  54. Klasztorny M., Nycz D.B., Zając K., Romanowski R.K., Modelling and numerical study of composite side safety device for Wielton trucks, Composites Theory and Practice, 17:1 (2017), pp. 19-24.
  55. Szurgott P., Klasztorny M., Niezgoda T., Miedzińska D., Kiczko A., Preliminary comparative static identification research on selected commercial auxetic fabrics, Composites Theory and Practice, 17:2 (2017), pp. 59-66.
  56. Klasztorny M., Zielonka K., Nycz D.B., Posuniak P., Experimental Verification of Simulation of TB32 Crash Test for SP-05/2 Road Safety Barrier on Horizontal Concave Arc, J. Civil Engineering, Environment and Architecture, 34:64 (2/I/17) (2017), pp. 107-118.





CV updated in November 24, 2017.

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