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

Ing. Lucie Malíková, Ph.D.

Room604
Phone number+420 532 290 367
E-mail[javascript protected email address]
Researcher IDB-6690-2014
ORCID0000-0001-5868-5717
Positionresearcher - Special Issues of Fracture Mechanics and Materials‘ Fatigue (FRACTIGUE)

Scientific interest
  • Analysis of fracture behavior of cracks in advanced materials
  • Finite element method
  • Multi-parameter fracture mechanics

Education
  • 2006-2009: Doctoral degree - Brno University of Technology, Faculty of Mechanical Engineering, Engineering Mechanics
  • 2001-2006: Master’s degree - Brno University of Technology, Faculty of Mechanical Engineering, Applied Mechanics
Work experiences
  • From 2021: Researcher - Special Issues of Fracture Mechanics and Materials‘ Fatigue (FRACTIGUE), Institute of Physics of Materials, CAS
  • From 10/2016: Assistant Proferssor - Institute of Structural Mechanics (FCE BUT), Brno University of Technology, Faculty of Civil Engineering
  • 2016-2020: Researcher - High Cycle Fatigue Group, Institute of Physics of Materials, CAS
  • 2011: Researcher - Institute of Structural Mechanics (FCE BUT), Brno University of Technology, Faculty of Civil Engineering
  • 2009-2010: Researcher - Institut für Struktur- und Funktionskeramik      Montanuniversität Leoben, Austria
  • 2006-2009: Ph.D. Student - High Cycle Fatigue Group, Institute of Physics of Materials, CAS
International internships
  • 2009-2010: Research Stay - Montanuniversität Leoben, Leoben, Austria
Projects
  • 2025-2027: Co-investigator - Reuse of construction waste for cyclically loaded alkali-activated materials - GACR
  • 2012-2014: Principal Investigator - Estimation of higher order terms of the Williams expansion and their use for fracture response description in structures made of quasi-brittle composites - Postdoc grant GACR
Awards
  • 2016: 2nd place in the competition for the most productive employees in research and development at the Faculty of Engineering, BUT in Brno TOP 10 publications in impact journals in 2015
  • 2014: 3rd place in the poster presentation competition at the Engineering Mechanics 2014 conference
  • 2012: Award for the best paper in the section at the ICMERA2012 conference in Bucharest, Romania
  • 2012: Award for the best poster presentation at the DKG-Tagung in Nuremberg, Germany
  • 2006: Dean's Award of the Faculty of Mechanical Engineering, Brno University of Technology
  • 2006: Preciosa Foundation Award

2025

Doubek P., Kumpová I., Malíková (Šestáková) L., Al Khazali M., Seitl S.: Determination of the geometric parameters of the defects based on the tomographically obtained data and their influence on the fatigue behavior of the S960 with laser cladded protective layers. Frattura ed Integrita Strutturale 71 (2025) 67-79

Malíková (Šestáková) L., Katzer J., Miarka P., Al Khazali M., Seitl S.: Failure analysis of mortar specimens with a hexagonal honeycomb panel during fatigue load. Periodica Polytechnica-Civil Engineering 2 (2025) 38834


2024

Al Khazali M., Malíková (Šestáková) L., Křivý V., Seitl S.: Enhancing weld joint integrity in S460 high-strength steel plates: An experimental approach. Juniorstav 2024 1 (2024) 1-8

Malíková (Šestáková) L., Benešová A., Al Khazali M., Seitl S.: Fatigue behavior of high strength steels under various levels of corrosion. Procedia Struct. Integr. 52 (2024) 376-381

Malíková (Šestáková) L., Benešová A., Al Khazali M., Seitl S.: Corrosion vs. fatigue in a high-strength steel specimen investigated via FEM. Procedia Struct. Integr. 58 (2024) 68-72

Malíková (Šestáková) L., Doubek P., Křivý V., Seitl S.: I+II mixed mode fatigue crack propagation under combination of tensile loading and corrosion in a HSS specimen . Procedia Struct. Integr. 58 (2024) 17-22

Malíková (Šestáková) L., Miarka P.: Fatigue crack propagation near a corrosion pit in a HSS specimen. Theor. Appl. Fract. Mech. 129 (2024) 104214

Seitl S., Al Khazali M., Malíková (Šestáková) L.: Appropriate cumulative fatigue damage models for fatigue life estimation applied to high-strength steels. Kovové materiály 62 (2024) 41-51


2023

Malíková (Šestáková) L., Benešová A., Al Khazali M., Seitl S.: Stress concetration factor on a corrosion pit. Trans. VSB TU Ostrava Ser. 23 (2023) 27-30

Doubek P., Malíková (Šestáková) L., Miarka P., Seitl S.: Laser cladded protective layer on the S960 change of microhardness in the vicinity of the bi-material interface. Procedia Struct. Integr. 43 (2023) 101-106

Malíková (Šestáková) L., Juhászová T., Doubek P., Krejsa M., Seitl S.: Influence of a corrosion pit on behavior of a nearby crack. AIP Conference Proceedings 2848 (2023) 020003

Miarka P., Seitl S., Klusák J., Malíková (Šestáková) L., Merta I., Bílek V.: High-cycle fatigue cracks in concrete investigated by micro cT tomography.. Procedia Struct. Integr. 43 (2023) 124-129

Miarka P., Malíková (Šestáková) L., Bílek V., Benešová A., Merta I., Seitl S.: On the fatigue resistance of high performance concrete. AIP Conference Proceedings 2950 (2023) 020040

Bílek V., Bujdoš D., Dubovský V., Khestl F., Procházka L., Malíková (Šestáková) L., Miarka P.: Development of fracture and other mechanical properties of concretes with different curing. AIP Conference Proceedings 2950 (2023) 020010

Malíková (Šestáková) L., Doubek P., Juhászová T., Krejsa M., Seitl S.: Fatigue crack propagation under corrosion of high-strength steel. Procedia Struct. Integr. 43 (2023) 264-269

Malíková (Šestáková) L., Doubek P., Miarka P., Seitl S.: Numerical modelling of stress field near a crack tip influenced by corrosion. AIP Conference Proceedings 2950 (2023) 020023


2022

Malíková (Šestáková) L., Doubek P., Juhászová T., Seitl S.: Fracture Parameters of a Perpendicular Crack With its Tip Close to a Corrosion Pit. Trans. VSB TU Ostrava Ser. 22 (2022) 30-34

Malíková (Šestáková) L., Doubek P., Juhászová T., Klusák J., Seitl S.: Interaction of a fatigue crack and a corrosion dimple in a high-strength steel specimen. Procedia Struct. Integr. 42 (2022) 1082-1089

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

Seitl S., Benešová A., Paredes Pascual Á., Malíková (Šestáková) L., Bujdoš D., Bílek V.: Fatigue and fracture properties of concrete mixtures with various water to cement ratio and maximum size of aggregates. Procedia Struct. Integr. 42 (2022) 1512-1519

Doubek P., Malíková (Šestáková) L., Seitl S.: Analysis of the material properties in the vicinity of bi-material interface made by the laser cladded protective layer on the S960. Procedia Struct. Integr. 42 (2022) 1529-1536


2021

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

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

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., 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


2020

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

Malíková (Šestáková) L., Miarka P., Šimonová H.: Crack deflection under mixed-mode loading investigated via generalized MTS criterion. AIP Conference Proceedings 2309 (2020) 0034664

Malíková (Šestáková) L., Miarka P., Šimonová H.: Propagation conditions of an eccentric crack in a semi-circular disc loaded in I+II mixed mode. MATEC Web Conf. 310 (2020) 00017

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

Malíková (Šestáková) L., Miarka P., Šimonová H.: Mixed-mode crack propagation in a semi-circular disc under bending made of an environmental-friendly concrete. Procedia Struct. Integr. 28 (2020) 403-410

Malíková (Šestáková) L., Miarka P., Šimonová H.: Utilization of Williams power series for etimation of crack behavior under mixed-mode loading. Key Eng. Mater. 827 (2020) 203-208


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

Malíková (Šestáková) L., Miarka P., Šimonová H.: Crack propagation in mixed-mode specimens described via multi-parameter fracture mechanics. IOP Conf. Ser.: Mater. Sci. Eng. 629 (2019) 012013

Malíková (Šestáková) L., Šimonová H., Kucharczyková B., Miarka P.: Multi-parameter fracture mechanics: crack path in a mixed-mode specimen. Frattura ed Integrita Strutturale 49 (2019) 65-73


2018

Malíková (Šestáková) L., Razavi S., Berto F.: Crack propagation in a brittle DCB specimen assessed by means of the Williams power expansion. Frattura ed Integrita Strutturale 48 (2018) 34-41

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

Seitl S., Miarka P., Růžička V., Malíková (Šestáková) L., Merta I.: Wedge splitting test: displacement field analysis by multi-parameter fracture mechanics. Trans. VSB TU Ostrava Ser. 18 (2018) 50-55

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.: Multi-Parameter Fracture Mechanics: Crack Approaching a Bi-Material Interface. Key Eng. Mater. 784 (2018) 79-84


2017

Růžička V., Malíková (Šestáková) L., Seitl S.: Over-deterministic method: The influence of rounding numbers on the accuracy of the values of Williams' expansion terms. Frattura ed Integrita Strutturale 42 (2017) 128-135

Seitl S., Miarka P., Malíková (Šestáková) L., Krejsa M.: Comparison of calibration functions for short edge cracks under selected loads. Key Eng. Mater. 754 (2017) 353-356

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

Klon J., Sobek J., Malíková (Šestáková) L., Seitl S.: Impact of specific fracture energy investigated in front of the crack tip of three-point bending specimen. Frattura ed Integrita Strutturale 41 (2017) 189-196

Malíková (Šestáková) L., Klusák J.: Interaction between edge-crack and aggregate in silicate-based composite. Trans. VSB TU Ostrava Ser. 17 (2017) 59-64

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

Seitl S., Malíková (Šestáková) L., Sobek J., Frantík P., Lopez-Crespo P.: Williams expansion-based approximation of the stress field in an Al 2024 body with a crack from optical measurements. Defect Diffus. Forum 41 (2017) 323-331


2016

Malíková (Šestáková) L., Veselý V., Seitl S.: Crack propagation direction in a mixed mode geometry estimated via multi-parameter fracture criteria. Int. J. Fatigue 89 (2016) 99-107


2015

Majer Z., Náhlík L., Malíková (Šestáková) L.: Particulate composite damage: The influence of particle shape on crack path. Key Eng. Mater. 662 (2015) 77-80

Veselý V., Frantík P., Sobek J., Malíková (Šestáková) L., Seitl S.: Multi-parameter crack-tip stress state description for evaluation of nonlinear zone width in silicate composite specimens in component splitting/bending test geometry. Fatigue Fract. Eng. Mater. Struct. 38 (2015) 200-214


2014

Malíková (Šestáková) L., Veselý V.: Application of multi-parameter fracture mechanics to study of crack propagation angle in selected mixed-mode geometry. Key Eng. Mater. 592-593 (2014) 209-212

Malíková (Šestáková) L.: Detailed crack-tip stress field description in a specimen subjected to mixed-mode loading. Key Eng. Mater. 577-578 (2014) 317-320

Veselý V., Sobek J., Frantík P., Štafa M., Malíková (Šestáková) L., Seitl S.: Estimation of the zone of failure extent in quasi-brittle specimens with different crack-tip constraint conditions from stress field. Key Eng. Mater. 592-593 (2014) 262-265

Malíková (Šestáková) L.: Using the multi-parameter fracture mechanics for more accurate description of stress/displacement crack tip fields. Key Eng. Mater. 586 (2014) 237-240


2013

Veselý V., Sobek J., Malíková (Šestáková) L., Seitl S.: Accurate description of near-crak-tip fields for the estimation of inelastic zone extent in quasi-brittle materials. Key Eng. Mater. 525-526 (2013) 529-532

Veselý V., Sobek J., Malíková (Šestáková) L., Frantík P.: Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimen. Frattura ed Integrita Strutturale 25 (2013) 69-78


2011

Malíková (Šestáková) L., Bermejo R., Chlup Z., Danzer R.: Strategies for fracture toughness, strength and reliability optimisation of ceramic-ceramic laminates. Int. J. Mater. Res. 102 (2011) 613-626


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