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doc. Ing. Pavel Hutař, Ph.D.
Position: head
Groups: Multiscale Modelling and Measurements of Physical Properties (CEITEC IPM), High Cycle Fatigue Group
Rooms: 119
Phone numbers: +420 532 290 351
E-mail: hutar@DELETE-THIS.CZ@DELETE-THIS.COMipm.cz.COM
  • 1995-2000 Master Studies
    Brno University of Technology, Faculty of Mechanical Engineering, branch Applied Mechanics
  • 2000-2004 Postgraduate Studies
    Brno University of Technology, Faculty of Mechanical Engineering, branch Engineering Mechanics
  • 2004-2005 CEA, Paris
    Postdoctoral Position, Commissariat a l`Energie Atomique (CEA), DEN/DMN/SRMA, Gif-sur-Yvette Cedex, France
  • 2005-2011 FME BUT
    External Lecturer, Faculty of Mechanical Engineering, Brno University of Technology
  • Since 2005 IPM AS CR
    Research Fellow, High Cycle Fatigue Group, Institute of Physics of Materials, Academy of Sciences of the Czech Republic - collaboration on projects running in the group
  • Since 2011 FME BUT
    Assoc. Prof., Faculty of Mechanical Engineering, Brno University of Technology - Institute of Solid Mechanics, Mechatronics and Biomechanics
  • Since 2011 IPM AS CR
    Head of High Cycle Fatigue Group, Institute of Physics of Materials, Academy of Sciences of the Czech Republic, v.v.i.
  • Scientific interest:
    Fatigue of materials and lifetime estimation, fracture mechanics, general singular stress concentrators, generalized fracture mechanics, computational mechanics.
    Projects
    Assessment of fatigue damage of thin-walled structures
    Correlation between structural changes, damage evolution and crack propagation behaviour of welded thermoplastics components
    Description of the slow crack growth in polymer materials under complex loading conditions
    Fracture damage mechanism of multilayer polymer body
    Innovative approach to improve fatigue performance of automotive components aiming at CO2 emissions reduction (INNOFAT)
    K1-Center in Polymer Engineering and Science
    Research and development of advanced precision casting technology of strongly thermally affected parts of new turbochargers from nickel based superalloys
    Research and development of precision casting technology for new type of aircraft engine castings and axial turbocharger wheels
    The effect of free surface on fatigue crack growth
    Výzkum a vývoj technologií přesného lití radiálních kol turbodmychadel nové generace a nových typů lopatek plynových turbín.
    Publications:
    2017
    HUTAŘ P, PODUŠKA J, ŠMÍD M, KUBĚNA I, CHLUPOVÁ A, NÁHLÍK L, POLÁK J, KRUML T: Short fatigue crack behaviour under low cycle fatigue regime. Int. J Fatigue 103 (2017) 207–215.
    2016
    2015
    2014
    2013
    2012
    Luboš Náhlík, Bohuslav Máša, Pavel Hutař, Macroscopic Behavior and Damage of a Particulate Composite with a Crosslinked Polymer Matrix, Mechanics and Properties of Composed Materials and Structures, Springer-Verlag Berlin Heidelberg, 2012
    Hutař, P., Zouhar, M., Nezbedová, E., Sadílek, J., Žídek, J., Náhlík, L., Knésl, Z., Constraint effect on the slow crack growth in polyethylene, International Journal of Structural Integrity, Vol. 3 Iss: 2 pp. 118 – 126, 2012
    Ševčík, M., Hutař, P., Náhlik, L., Lach, R., Knésl Z., Grellmann, W., Crack propagation in a welded polyolefin pipe, International Journal of Structural Integrity, Vol. 3 Iss: 2 pp. 148 – 157, 2012.
    Zouhar, M., Hutař, P., Náhlík, L., Ševčík, M., Knésl, Z.; The effect of critical distance in stability condition for the crack at the interface between two materials, Engineering Mechanics, Vol. 19, no. 2/3, p. 155-164, 2012
    2011
    KRUML T, HUTAŘ P, NÁHLÍK L, SEITL S, POLÁK J: Fatigue cracks in Eurofer 97 steel: Part II. Comparison of small and long fatigue crack growth. J. Nucl. Mater. 412 (2011) 7–12.
    Hutař P., Náhlík L., Ševčík M., Seitl S., Kruml T., Polák J.: Fatigue crack propagation rate in EUROFER 97 estimated using small specimens, Key Engineering Materials, Vols.452-453, pp.325-328, 2011
    2010
    Ševčík M., Hutař P., Náhlík L., Description of the stress distribution around the crack front in the case of thin structures, Bulletin of Applied Mechanics, Vol.6(22), pp.30-33, 2010.
    2009
    Šestáková , L., Náhlík, L., Hutař, P., Knésl, Z. Crack propagation in the vicinity of the interface in layered materials, Applied and Computational Mechanics, Vol. 3, No. 1, pp. 195-204, 2009
    Ševčík, M., Hutař, P. Náhlík, L., Knésl, Z. Evaluation of the stress intensity factor in functionally graded materials, Applied and Computational Mechanics, Vol. 3, No. 2, pp. 401-410, 2009
    2008
    Náhlík, L., Hutař, P., Knésl, Z., Transverse cracking of layered structures: evaluation of fatigue crack propagation, Materials Science Forum, Vols. 567-568, pp. 221-224, 2008
    Náhlík, L., Šestáková, L., Hutař, P., Estimation of the crack propagation direction of a crack touching the interface between two elastic materials, Materials Science Forum, Vols. 567-568, pp. 225-228, 2008
    Náhlík, L., Šestáková, L., Hutař, P. Numerical Investigation of Stress Singularities in Cracked Bimaterial Body. Key Engineering Materials, Vols. 385-387 pp. 125-128, 2008
    Náhlík, L., Šestáková, L., Hutař, P. Crack propagation in the vicinity of the interface between two elastic materials. Sborník The first African InterQuadrennial ICF (International conference on Fracture) conference, Alger, Alžírsko, 2008.
    Náhlík, L. Šestáková, L., Hutař, P. Estimation of apparent fracture toughness of ceramic laminates based on generalized strain energy density factor. European Conference on Fracture (ECF-17), p. 1522-1529, Brno, 2008.
    Hutař, P., Náhlík, L., Knésl, Z. The effect of the singularity induced by the free surface on fatigue crack growth in thin structures. Key Engineering Materials, Vols. 385-387 pp. 317-320, 2008
    Hutař, P., Náhlík, L., Knésl, Z., Seitl, S. The influence of vertex singularities on fatigue crack shape. European Conference on Fracture (ECF-17), p. 1060-1066, Brno, 2008.
    Hutař P., Náhlík L., Fatigue crack shape prediction based on vertex singularity, Applied and Computational Mechanics, Vol. 2, No.1, 45-52, 2008
    Majer Z., Hutař P., Náhlík L., Knésl Z. The influence of loading direction on micro-crack behaviour in polymer composite, Applied and Computational Mechanics, Vol. 2, No. 2, 285-290, 2008
    2007
    Šestáková, L., Náhlík, L., Hutař, P., Knésl, Z., Fracture mechanics parameters of multilayer pipes, Applied and Computational Mechanics, Vol. 1, 299-306, 2007
    Náhlík, L., Hutař, P., Knésl, Z., The influence of loading ratio on fatigue crack propagation through a bi-material interface, Key Engineering Materials, Vols. 348-349, 317-320, 2007
    Seitl S., Hutař, P.: Fatigue crack propagation near threshold region in framework two-parameter fracture mechanics, Journal Materials and Technology, 2007, 41(3), 135-138
    Majer, Z., Hutař, P., Náhlík, L., Knésl, Z., Influence of particle-matrix interphase on stress distribution in particulate composite with polymer matrix, Applied and Computational Mechanics, Vol.1, 143-148, 2007
    Hutař, P., Náhlík, L., Knésl, Z., Numerical investigations of corner singularities in cracked bodies, Key Engineering Materials, Vols. 348-349, 377-380, 2007
    Knésl, Z., Hutař, P., Náhlík, L., Nezbedová, E., Vlach, B., Role of particle size and filler matrix on stress state in thermoplastic composites, Computational modeling and experiment of composite materials, Liptovský Mikuláš, 2007
    Hutař, P., Náhlík, L., Knésl, Z., Kunz, L., Matušek, P., Model analysis of fatigue crack growth during EN 13262 wheel standard testing, 15 International Wheelset Congress, Praha, 2007
    2006
    Náhlík, L., Hutař, P., Knésl, Z. Influence of residual stresses on threshold values for crack propagation through an interface between two materials. Key Engineering Materials, Vol. 325, p. 1153-1156, 2006.
    Hutař, P., Knésl, Z., Relation between constraint and fatigue crack growth rate, Fatigue 2006, Atlanta, 2006.
    Hutař, P., Seitl, S., Knésl, Z., Effect of constraint on fatigue crack propagation near threshold in medium carbon steel, Computational materials Science, Vol. 37, 51-57, 2006.
    Hutař, P., Sauzay, M., Simulation of fatigue crack growth by crack tip blunting, 16th European Conference of Fracture, Alexandroupolis, Greece, 2006.
    Knésl, Z., Hutař,P., Seitl, S.: Constraint aspects of the evaluation of fatigue test results in Paris region, Communication 2006, Volume 4: pp. 25-28.
    2005
    Hutař, P., Seitl, S., Knésl, Z., The role of the constraint in the case of short cracks, Material Science Forum, Vol. 482, 2005, pp. 303-306
    2004
    S. Seitl, P. Hutař, Z. Knésl: Calculation and assessment of constraint for short fatigue cracks. Materials Engineering, Volume 11, No.4, 2004, pp. 7-12.
    P. Hutař, S. Seitl, Z. Knésl: Quantification of the effect of specimen geometry on the fatigue crack growth response by two-parameter fracture mechanics. Materials Science and Engineering, A 387-389, 2004, pp.491-494.
    P. Hutař, S. Seitl, Z. Knésl: Effect of constraint on fatigue crack propagation near threshold in medium carbon steel. 14th International Workshop on Computational Mechanics of Materials, Goa, India, 2004.
    P. Hutař, S. Seitl, Z. Knésl: The role of constraint in the case of short cracks. Materials Science Forum, Vol. 482, 2004, pp. 303-306.
    2002
    Z. Knésl, S. Seitl, P. Hutař: Accounting for effects of constraint on propagation of a fatigue crack. Damage and Fracture Mechanics VII (Computer Aided Assessment and Control), eds. C.A.Brebbia, S-I. Nishida, WIT Press, Southampton 2002, p.245.
    Information leaflet
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    central european institute of technology



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    Last update
    16. 11. 2017