Institute of Physics of Materials AS CR, v. v. i. > People > Šmíd Miroslav

Ing. Miroslav Šmíd, Ph.D.

Phone number+420 532 290 414
E-mail[javascript protected email address]
Researcher IDF-9798-2014
Positionresearcher - High Cycle Fatigue Group, researcher -

Personal information
  • 2003-2008 Master studies
    Brno University of Technology, Faculty of mechanical engineering, branch Material sciences and engineering
  • 2008-2013 Postgraduate studies
    Brno University of Technology, Faculty of mechanical engineering, branch Material sciences and engineering
  • 2009-2011 BUT Lecturer
    Subjects Introduction into material engineering
  • Since 2013 IPM AS CR
    Postdoctoral fellow, High cycle fatigue, Institute of Physics of Materials, Academy of Sciences of the Czech Republic

  • Scientific interest
    High temperature fatigue of nickel-base superalloys and their mechanisms of fatigue deformations.


    Šmíd M., Horník V., Kunz L., Hrbáček K., Hutař P.: High Cycle Fatigue Data Transferability of MAR-M 247 Superalloy from Separately Cast Specimens to Real Gas Turbine Blade. Metals 10 (2020) 1460-1476

    Arabi-Hashemi A., Polatidis E., Šmíd M., Panzner T., Leinenbach C.: Grain orientation dependence of the forward and reverse fcc <-> hcp transformation in FeMnSi-based shape memory alloys studied by in situ neutron diffraction. Mater. Sci. Eng. A 782 (2020) 139261

    Polatidis E., Šmíd M., Kuběna I., Hsu W., Laplanche G., Van Swygenhoven H.: Deformation mechanisms in a superelastic NiTi alloy: An in-situ high resolution digital image correlation study. Mater. & Design 191 (2020) 108622

    Fintová S., Kuběna I., Luptáková N., Jarý M., Šmíd M., Stratil L., Šiška F., Svoboda J.: Development of advanced Fe-Al-O ODS alloy microstructure and properties due to heat treatment. J. Mater. Res. 35 (2020) 2789-2797


    Sofinowski K., Šmíd M., Kuběna I., Vives S., Casati N., Godet S., Van Swygenhoven H.: In situ characterization of a high work hardening Ti-6Al-4V prepared by electron beam melting. Acta Mater. 179 (2019) 224-236

    Horník V., Fintová S., Šmíd M., Hutař P., Hrbáček K., Kunz L.: Fatigue properties of B1914 superalloy at high temperatures. Procedia Struct. Integr. 23 (2019) 191-196

    Horník V., Fintová S., Šmíd M., Hutař P., Hrbáček K., Kunz L.: Interaction of fatigue and creep in MAR-M 247 superalloy. Procedia Struct. Integr. 23 (2019) 197-202


    Záležák T., Šiška F., Stratil L., Luptáková N., Šmíd M., Bártková D., Svoboda J., Dlouhý A.: A Numerical Analysis of Deformation Processes in Oxide Dispersion-Strengthened Materials - Influence of Dislocation-Particle Interactions. Solid State Phenom. 258 (2017) 106-109

    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

    Horník V., Šmíd M., Hutař P., Kunz L., Hrbáček K.: Interaction of Creep and High Cycle Fatigue of IN 713LC Superalloy. Solid State Phenom. 258 (2017) 595-598

    Bártková D., Šmíd M., Mašek B., Svoboda J., Šiška F.: Kinetic study of static recrystallization in an Fe-Al-O ultra-fine-grained nanocomposite. Philos. Mag. Lett. 97 (2017) 379-385


    Němcová A., Kuběna I., Šmíd M., Habazaki H., Skeldon P., Thompson G.: Effect of current density and behaviour of second phases in anodizing of a Mg-Zn-RE alloy in a fluoride/glycerol/water electrolyte. J Solid State Electrochem. 20 (2016) 1155-1165

    Šiška F., Stratil L., Šmíd M., Luptáková N., Záležák T., Bártková D.: Deformation and fracture behavior of the P91 martensitic steel at high temperatures. Mater. Sci. Eng. A 672 (2016) 1-6

    Hutař P., Poduška J., Chlupová A., Šmíd M., Kruml T., Náhlík L.: Description of short fatigue crack propagation under low cycle fatigue regime. Procedia Struct. Integr. 2 (2016) 3009-3016

    Šmíd M., Horník V., Hutař P., Hrbáček K., Kunz L.: High Cycle Fatigue Damage Mechanisms of MAR-M 247 Superalloy at High Temperatures. Trans. Indian Inst. Metals 69 (2016) 393-397

    Šmíd M., Hutař P., Horník V., Hrbáček K., Kunz L.: Stage I fatigue cracking in MAR-M 247 superalloy at elevated temperatures. Procedia Struct. Integr. 2 (2016) 3585-3592


    Šmíd M., Fintová S., Kunz L., Hutař P., Hrbáček K.: Prediction of maximum casting defect size in MAR-M 247 alloy processed by hot isostatic pressing. Materials Engineering - Materialove inzinierstvo 2 (2015) 25-32

    Palagonia M., Němcová A., Kuběna I., Šmíd M., Gao S., Liu H., Zhong X., Haigh S., Santamaria M., Quarto F., Habazaki H., Skeldon P., Thompson G.: Behavior of Alloying Elements during Anodizing of Mg-Cu and Mg-W Alloys in a Fluoride/Glycerol Electrolyte. J. Electrochem. Soc. 162 (2015) C487-C494


    Hutař P., Kuběna I., Ševčík M., Šmíd M., Kruml T., Náhlík L.: Small fatigue crack propagation in Y2O3 strengthened steels. J. Nucl. Mater. 452 (2014) 370-377

    Hutař P., Kuběna I., Šmíd M., Ševčík M., Kruml T., Náhlík L.: Description of small fatigue crack propagation in ODS steel. Adv. Mater. Res. 891-892 (2014) 911-916

    Šmíd M., Kunz L., Hutař P., Hrbáček K.: High cycle fatigue of nickel-based superalloy MAR-M 247 at high temperatures. Procedia Eng. 74 (2014) 329-332

    Šmíd M., Obrtlík K.: Surface relief evolution in IN792-5A nickel base superalloy under high temperature fatigue straining with hold times. Key Eng. Mater. 592-593 (2014) 429-432

    Beran P., Petrenec M., Heczko M., Smetana B., Žaludová M., Šmíd M., Kruml T., Keller L.: In-situ neutron diffraction study of thermal phase stability in a gamma-TiAl based alloy doped with Mo and/or C. Intermetallics 54 (2014) 28-38

    Petrenec M., Polák J., Tobiáš J., Šmíd M., Chlupová A., Petráš R.: Analysis of cyclic plastic response of nickel based IN738LC superalloy. Int. J. Fatigue 65 (2014) 44-50


    Šmíd M., Petrenec M., Polák J., Obrtlík K., Chlupová A.: Analysis of the Effective and Internal Cyclic Stress Components in the Inconel Superalloy Fatigued at Elevated Temperature. Adv. Mater. Res. 278 (2011) 393-398

    Number of ProjectName
    19-25591Y Effect of the microstructure on the fatigue in highly anisotropic stainless steel fabricated by selective laser melting