Institute of Physics of Materials AS CR, v. v. i. > People > Malíková Lucie

Ing. Lucie Malíková, Ph.D.

Room603
Phone number+420 532 290 430
E-mail[javascript protected email address]
Researcher IDB-6690-2014
Positionresearcher - Special Issues of Fracture Mechanics and Materials‘ Fatigue (FRACTIGUE)

Personal information
Education:
  • 2001-2006 Master Studies Brno University of Technology, Faculty of Mechanical Engineering, branch Applied Mechanics
  • 2001-2006 Postgraduate Studies Brno University of Technology, Faculty of Mechanical Engineering, branch Engineering Mechanics
Professional development:
  • 2005-2009 IPM AS CR Young research fellow in High Cycle Fatigue Group, Master and PhD thesis, collaboration on projects running in the group
  • 2009-2010 MCL Leoben, ISFK Montanuniversität Leoben Junior researcher, research project “Mechanical reliability of LTCC components for automotive applications”, Materials Center Leoben (MCL) and Institut für Struktur- und Funktionskeramik (ISFK), Montanuniversität Leoben, Austria
  • Since 2011 FCE BUT Research Fellow, Faculty of Civil Engineering, Brno University of Technology - Institute of Structural Mechanics
  • Since 2016 IPM AS CR Research Fellow, currently in the Group of Special Issues of Fracture Mechanics and Materials‘ Fatigue, Institute of Physics of Materials, Academy of Sciences of the Czech Republic - collaboration on projects running in the group

Scientific interest
Classical and generalized fracture mechanics, computational mechanics, bi-material interface, ceramic laminates, Williams expansion, multi-parameter crack-tip stress field description.


2022

Malíková (Šestáková) L., Miarka P., Doubek P., Seitl S.: Influence of the interphase between laser-cladded metal layer and steel substrate on the fatigue propagation of a short edge crack. Frattura ed Integrita Strutturale 59 (2022) 514-524



2021

Malíková (Šestáková) L., Doubek P., Miarka P., Seitl S.: Crack behaviour at the interface of a surface layer applied ona steel substrate by laser cladding. IOP Conference Series: Materials Science and Engineering 1209 (2021) 12049

Malíková (Šestáková) L., Miarka P., Kucharczyková B., Šimonová H.: Williams expansion utilized for assessment of crack behaviour under mixed-mode loading in alkali-activated fine-grained composite. Fatigue Fract. Eng. Mater. Struct. 44 (2021) 1151-1161

Malíková (Šestáková) L., Miarka P., Doubek P., Seitl S.: Influence of the bi-material interface on the crack propagation through a thin protective layer. Procedia Struct. Integr. 33 (2021) 605-612

Juhászová T., Malíková (Šestáková) L., Doubek P., Miarka P., Seitl S.: Fatigue behaviour of a short crack in a thin protective layer laser-cladded on a steel substrate. Trans. VSB TU Ostrava Ser. 21 (2021) 25-28



2020

Miarka P., Cruces A., Seitl S., Malíková (Šestáková) L., Lopez Crespo P.: Evaluation of the SIF and T-stress values of the Brazilian disc with a central notch by hybrid method . Int. J. Fatigue 135 (2020) 105562

Miarka P., Cruces A., Seitl S., Malíková (Šestáková) L., Lopez Crespo P.: Influence of the constraint effect on the fatigue crack growth rate in S355 J2 steel using digital image correlation. Fatigue Fract. Eng. Mater. Struct. 43 (2020) 1703-1718



2019

Seitl S., Miarka P., Růžička V., Malíková (Šestáková) L., Cruces A., Lopez Crespo P.: Approximation of the crack-tip field in fatigue cracks in bridge steel specimens: DIC analysis of different constraint levels. Frattura ed Integrita Strutturale 49 (2019) 97-106



2018

Seitl S., Malíková (Šestáková) L., Růžička V., Moreno B., Lopez Crespo P.: Williams' expansion-based approximation of the displacement field in an Al 2024 compact tension specimen reconstructed from optical measurements. Fatigue Fract. Eng. Mater. Struct. 41 (2018) 2187-2196

Malíková (Šestáková) L., Klusák J.: Influence of the Interfacial Transition Zone on crack behavior in a matrix/aggregate system. Procedia Struct. Integr. 13 (2018) 1798-1803

Malíková (Šestáková) L., Klusák J.: Multi-Parameter Fracture Mechanics: Crack Approaching a Bi-Material Interface. Key Eng. Mater. 784 (2018) 79-84



2017

Šimonová H., Vyhlídal M., Kucharczyková B., Bayer P., Keršner Z., Malíková (Šestáková) L., Klusák J.: Modelling of interfacial transition zone effect on resistance to crack propagation in fine-grained cement-based composites. Frattura ed Integrita Strutturale 41 (2017) 211-219

Malíková (Šestáková) L., Seitl S.: Application of the Williams Expansion near a Bi-Material Interface. Key Engineering Materials 754 (2017) 206-209

Malíková (Šestáková) L., Klusák J., Keršner Z.: Assessment of Crack Stability in a Quasi-brittle Particle Composite. Procedia Eng. 190 (2017) 49-53


Number of ProjectName
8J18AT009 Failure initiation and fracture of quasi-brittle building materials (FInFraM)