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Ing. Tereza Unger Uhlířová, Ph.D.

P_2021

Education and degrees

  • 2008–2011 B.Sc. thesis at UCT VŠCHT Praha; Faculty of Chemical Technology, specialization: Drug synthesis and production, topic: “Rheology of ceramics suspensions with additions of mono-,di- and polysaccharides”.
  • 2011–2013 M.Sc. thesis at UCT VŠCHT Praha; Faculty of Chemical Technology, specialization: Drug production, topic: “Highly porous cellular ceramics prepared via biological foaming”.
  • 2013–2019 PhD thesis at UCT VŠCHT Praha; Faculty of Chemical Technology, specialization: Chemistry and technology of inorganic materials, topic: “Characterization and modelling of dense, porous and cellular ceramics”.

International internships

  • 2015 – 2 months internship at ENSCI (Limoges, France) – Erasmus project
  • 2018 – 2 weeks internship at Universidad Nacional de Mar del Plata (Mar del Plata, Argentina) – UCT Prague project
  • 2022 – 3 months internship at Department of Industrial Engineering, University of Padua (Padua, Italy) – JECS Trust project

Awards and scholarships

  • 1st place: Student scientific conference, Department of glass and ceramics, UCT Prague, 2013, poster
  • 2nd place: 9th Conference on Polysaccharides-Glycoscience, Prague, 2013, oral presentation
  • 1st place: 7th International Workshop on Advanced Ceramics, Limoges, France, 2016, poster
  • Preciosa Foundation Award – for dissertation
  • Preciosa Foundation scholarship in academic years 2013/14, 2014/15 a 2015/16

Publications

  • WoS database – 37 publications, cited 261 times (without autocitations)
  • Scopus database – 36 publications, cited 235 times (without autocitations)
  • H-index – 12

Impact Factor journal articles

  • Uhlířová, T.; Šimonová, P.; Pabst, W. Modeling of elastic properties and conductivity of partially sintered ceramics with duplex microstructure and different grain size ratio. J. Eur. Ceram. Soc. 2022, 42 (6), 2946-2956. DOI: 10.1016/j.jeurceramsoc.2022.01.053
  • Pabst, W.; Hříbalová, S.; Uhlířová, T. Quasi-laminate and quasi-columnate modeling of dielectric and piezoelectric properties of cubic-cell metamaterials. J. Eur. Ceram. Soc. 2022, 42 (4), 1396-1406. DOI: 10.1016/j.jeurceramsoc.2021.12.013
  • Pabst, W.; Uhlířová, T. Benchmark polynomials for the porosity dependence of elastic moduli and conductivity of partially sintered ceramics. J. Eur. Ceram. Soc. 2021, 41 (15), 7967-7975. DOI: 10.1016/j.jeurceramsoc.2021.08.028
  • Hříbalová, S.; Uhlířová, T.; Pabst, W. Computer modeling of systematic processing defects on the thermal and elastic properties of open Kelvin-cell metamaterials. J. Eur. Ceram. Soc. 2021, 41 (14), 7130-7140. DOI: 10.1016/j.jeurceramsoc.2021.07.031
  • Uhlířová, T.; Pabst, W. Phase mixture modeling of the grain size dependence of Young's modulus and thermal conductivity of alumina and zirconia ceramics. J. Eur. Ceram. Soc. 2020, 40 (8), 3181–3190. DOI: 10.1016/j.jeurceramsoc.2020.01.069
  • Uhlířová, T.; Pabst, W. Poisson’s ratio of porous and cellular materials with randomly distributed isometric pores or cells. J. Am. Ceram. Soc. 2020, 103 (12), 6961-6977. DOI: 10.1111/jace.17139
  • Uhlířová, T.; Pabst, W. Thermal conductivity and Young's modulus of cubic-cell metamaterials. Ceram. Int. 2019, 45 (1), 954–962. DOI: 10.1016/j.ceramint.2018.09.271
  • Uhlířová, T.; Pabst, W. Conductivity and Young's modulus of porous metamaterials based on Gibson-Ashby cells. Scr. Mater. 2019, 159, 1–4. DOI: 10.1016/j.scriptamat.2018.09.005
  • Hostaša, J.; Nečina, V.; Uhlířová, T.; Biasini, V. Effect of rare earth ions doping on the thermal properties of YAG transparent ceramics. J. Eur. Ceram. Soc. 2019, 39 (1), 53–58. DOI: 10.1016/j.jeurceramsoc.2018.04.018
  • Gregorová, E.; Pabst, W.; Nečina, V.; Uhlířová, T.; Diblíková, P. Young‘s modulus evolution during heating, re-sintering and cooling of partially sintered alumina ceramics. J. Eur. Ceram. Soc. 2019, 39 (5), 1893–1899. DOI: 10.1016/j.jeurceramsoc.2019.01.005
  • Uhlířová, T.; Nečina, V.; Pabst, W. Modeling of Young’s modulus and thermal conductivity evolution of partially sintered alumina ceramics with pore shape changes from concave to convex. J. Eur. Ceram. Soc. 2018, 38 (8), 3004–3011. DOI: 10.1016/j.jeurceramsoc.2017.12.033
  • Pabst, W.; Uhlířová, T.; Gregorová, E.; Wiegmann, A. Relative Young’s modulus and thermal conductivity of isotropic porous ceramics with randomly oriented spheroidal pores – Model-based relations, cross-property predictions and numerical calculations. J. Eur. Ceram. Soc. 2018, 38 (11), 4026–4034. DOI: 10.1016/j.jeurceramsoc.2018.04.051
  • Pabst, W.; Uhlířová, T.; Gregorová, E.; Wiegmann, A. Young’s modulus and thermal conductivity of model materials with convex or concave pores – from analytical predictions to numerical results. J. Eur. Ceram. Soc. 2018, 38 (7), 2694–2707. DOI: 10.1016/j.jeurceramsoc.2018.01.040
  • Pabst, W.; Uhlířová, T.; Gregorová, E.; Wiegmann, A. Young’s modulus and thermal conductivity of closed-cell, open-cell and inverse ceramic foams – model-based predictions, cross-property predictions and numerical calculations. J. Eur. Ceram. Soc. 2018, 38 (6), 2570–2578. DOI: 10.1016/j.jeurceramsoc.2018.01.019
  • Pabst, W.; Uhlířová, T.; Gregorová, E. Shear and bulk moduli of isotropic porous and cellular alumina ceramics predicted from thermal conductivity via cross-property relations. Ceram. Int. 2018, 44 (7), 8100–8108. DOI: 10.1016/j.ceramint.2018.01.254
  • Gregorová, E.; Uhlířová, T.; Pabst, W.; Diblíková, P.; Sedlářová, I. Microstructure characterization of mullite foam by image analysis, mercury porosimetry and X-ray computed microtomography. Ceram. Int. 2018, 44 (11), 12315–12328. DOI: 10.1016/j.ceramint.2018.04.019
  • Pabst, W.; Uhlířová, T. A generalized class of transformation matrices for the reconstruction of sphere size distributions from section circle size distributions. Ceramics-Silikáty 2017, 61 (2), 147–157. DOI: 10.13168/cs.2017.0010
  • Uhlířová, T.; Pabst, W.; Gregorová, E.; Hostaša, J. Stereology of dense polycrystalline materials-from interface density and mean curvature integral density to Rayleigh distributions of grain sizes. J. Eur. Ceram. Soc. 2016, 36 (9), 2319–2328. DOI: 10.1016/j.jeurceramsoc.2015.12.053
  • Gregorová, E.; Pabst, W.; Uhlířová, T.; Nečina, V.; Veselý, M.; Sedlářová, I. Processing, microstructure and elastic properties of mullite-based ceramic foams prepared by direct foaming with wheat flour. J. Eur. Ceram. Soc. 2016, 36 (1), 109–120. DOI: 10.1016/j.jeurceramsoc.2015.09.028
  • Uhlířová, T.; Hostaša, J.; Pabst, W.; Esposito, L. Charakterizace mikrostruktury transparentní YAG keramiky pomocí mikroskopické obrazové analýzy se zvláštním ohledem na velikostní čísla zrn. JMO Jemná mechanika a optika / Fine Mechanics and Optics 2015, 60, 109–114.
  • Uhlířová, T.; Gregorová, E.; Pabst, W.; Nečina, V. Preparation of cellular alumina ceramics via biological foaming with yeast and its microstructural characterization via stereological relations. J. Eur. Ceram. Soc. 2015, 35 (1), 187–196. DOI: 10.1016/j.jeurceramsoc.2014.08.020
  • Uhlířová, T.; Gregorová, E.; Pabst, W. Application of stereological relations for the characterization of porous materials via microscopic image analysis. Key Engineering Materials 2015, 647, 180–187. DOI: 10.4028/www.scientific.net/KEM.647.180
  • Pabst, W.; Gregorová, E.; Uhlířová, T. Microstructure characterization via stereological relations − A shortcut for beginners. Mater. Charact. 2015, 105, 1–12.DOI: 10.1016/j.matchar.2015.04.013
  • Uhlířová, T.; Hostaša, J.; Pabst, W. Characterization of the microstructure of YAG ceramics via stereology-based image analysis. Ceramics-Silikáty 2014, 58 (3), 173–183.
  • Pabst, W.; Gregorová, E.; Uhlířová, T.; Musilová, A. Elastic properties of mullite and mullite-containing ceramics part 1: Theoretical aspects and review of monocrystal data. Ceramics-Silikáty 2013, 57 (4), 265–274.
  • Reiter, J.; Uhlířová, T.; Owen, J. R. Electrochemical behaviour of hexacyanoferrate(II)/(III) and ferrocene/ferricinium in lyotropic liquid crystals of polyoxyethylene (10) cetylether (Brij 56). Journal of Electroanalytical Chemistry 2010, 646 (1), 18-23. DOI: 10.1016/j.jelechem.2010.04.014

Book chapters

  • Pabst W., Uhlířová T., Hříbalová S., Nečina V.: Rigorous bounds, model predictions and mixture rule for the effective thermal conductivity of multiphase and porous ceramics – from theory to practice, Chapter 1 (pp. 1-138) in Sohel Murshed S. M. (ed.): An Essential Guide to Thermal Conductivity (ISBN hardcover 978-1-68507-196-7). 376 pp. Nova Science Publishers, New York 2021. DOI: 10.52305/MSNC3801  
  • Uhlířová, T.; Hostaša, J.; Gregorová, E.; Pabst, W. Charakterizace keramických materiálů obrazovou analýzou. In Měření a řízení chemických, potravinářských a biotechnologických procesů. Díl II. Řízení technologických procesů Kadlec, K., Kmínek, M., Kadlec, P., Eds.; KEY Publishing: Ostrava, 2018; pp 303–309.
  • Pabst, W.; Uhlířová, T.; Nečina, V.; Gregorová, E. Basic concepts and classical models of solid state sintering. In Polycrystalline Materials: Synthesis, Performance and Applications, Olson, J., Ed.; Nova Science Publishers: New York, 2018; pp 1–64.
  • Pabst, W.; Gregorová, E.; Uhlířová, T.; Nečina, V. Mechanical and thermomechanical behavior of refractories: From basic concepts to effective property calculations. In Refractory Materials: Characteristics, Properties and Uses, Bryant, C., Ed.; Nova Science Publishers: New York, 2018; pp 33–132.
  • Uhlířová, T.; Gregorová, E.; Pabst, W. Direct foaming techniques for the preparation of cellular ceramics, their microstructural characterization and property-porosity relations – A review. In Advances in Porous Ceramics, Newton, A., Ed.; Nova Science Publishers: New York, 2017; pp 127–158.
  • Štětina, J.; Šárka, E.; Uhlířová, T.; Gregorová, E.; Pabst, W.; Bubník, Z. Měření velikosti částic, pórů a pórovitosti materiálů. In Měření a řízení chemických, potravinářských a biotechnologických procesů. Díl I. Provozní měření Kadlec, K., Kmínek, M., Kadlec, P., Eds.; KEY Publishing: Ostrava, 2017.
  • Pabst, W.; Gregorová, E.; Uhlířová, T. Processing, microstructure, properties, applications and curvature-based classification schemes of porous ceramics. In Advances in Porous Ceramics, Newton, A., Ed.; Nova Science Publishers: New York, 2017; pp 1–52.
Updated: 23.6.2022 16:15, Author: Tereza Unger Uhlířová

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