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[platne_od] => 31.10.2023 17:06:00
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Technická 5
166 28 Prague 6 – Dejvice
IČO: 60461373 / VAT: CZ60461373
Czech Post certified digital mail code: sp4j9ch
Copyright: UCT Prague 2015
Information provided by the Department of International Relations and the Department of R&D. Technical support by the Computing Centre.
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[obsah] => Agilent 5900 ICP-OES SVDV
The inductively coupled plasma optical emission spectrometer allows fast and precise concentration analysis of up to 70 elements in liquid samples (mostly aqueous solutions). The spectrometer is also able to perform a rapid IntelliQuant method, which provides identification of all elements that are present in the sample.
Contact person: Ing. Karolína Pánová (panovaka@vscht.cz)
UV-VIS spektrometer Shimadzu UV-2450
The spectrometer allows the measurement of absorbance or transmittance of samples in various wavelengths. This measurement can be useful for coatings on the surface of glass or in the development of new materials with special optical properties. It is also useful in measuring the concentration of selected elements in liquid samples (methods based on monitoring the colour intensity of the sample, which is dependent on the concentration of the element).
Contact person: Ing. Karolína Pánová (panovaka@vscht.cz)
Optical microscope Olympus BX51
The optical microscope is used to observe various samples in the incident or passing light in the magnification of 2–50x. The sample is scanned by the digital camera Promicam 3-5CP (Promicra, s.r.o.), and obtained images are processed by the QuickPhoto Camera 2.3 program. The microscope is also equipped with the Deep Focus module used for the observation of samples with uneven surfaces.
Contact person: Ing. Karolína Pánová (panovaka@vscht.cz)
Flow box FASTER SafeFAST Elite 212 S
The flow box is equipped with its own air circulation (vertical laminar airflow) and it is used during any manipulation with biological or otherwise harmful material – in our laboratory it is mainly antibacterial testing of new materials. The system provides an effective barrier between the inner and outer environment, protecting the material inside from outside contamination and the operator and surrounding area from the contamination of any biological material from inside. The flow box has the biohazard class II and it is equipped with a UV lamp for sterilization.
Contact person: Ing. Diana Horkavcová, Ph.D. (diana.horkavcova@vscht.cz)
Dip-coater ID Lab
The automated box for dip-coating is used for the controlled preparation of various coatings on different substrates. The box allows the customization of the immersion and surfacing rates, the length of the immersion delay, and the starting and final height of the holder.
Contact person: Ing. Diana Horkavcová, Ph.D. (diana.horkavcova@vscht.cz)
Demineralized water production line Watek DEMIWA 5 rosa
The device produces purified water using reverse osmosis (it can remove inorganic ions from tap water up to 95–99 % success rate). A mechanical filter is included at the tap water input as well as the activated charcoal for dechlorination, followed by an ion exchanger and microbial filter at the output. The demineralized water has conductivity levels below 1 µS/cm and is suitable for use in very sensitive analytical methods.
Contact person: Ing. Karolína Pánová (panovaka@vscht.cz)
Environmental test chamber Memmert CTC 256
Sealed chamber working with a temperature range of +190 to -42 °C with continuous removal of condensate moisture using a temperature-ventilation system. Adjustable internal humidity 10-98% rh. regulated by means of Peltier cells. Suitable for frost resistance measurement (ČSN 73 1326, ČSN 72 2452).
Contact person: Ing. Martina Šídlová, Ph.D. (martina.sidlova@vscht.cz)
Vicat apparatus Vicatronic Matest E044N
Device used for determining used for the initial and final setting time determination of cements or mortar pastes (EN 196-3, EN 480-2, EN 13279-2, EN 13279-2). The measurement is fully automatic with free or controlled fall of the measuring probe. Suitable for measuring the setting of cement or plaster slurries and mortars.
Contact person: Ing. Martina Šídlová, Ph.D. (martina.sidlova@vscht.cz)
Roll ball mill Tencan QM-15
Laboratory ball mill for dry fine grinding and mixing of powder materials. Steel grinding container with a volume of 5 l with a speed range of 60-510 rpm.
Contact person: Ing. Martina Šídlová, Ph.D. (martina.sidlova@vscht.cz)
Helium Pycnometer Microtracs BELPYCNO L
For pycnometric measurement of the real density of fine powder materials. Measuring cell volumes: 4, 20, 40, 60 and 100 cm3. Temperature regulation 14-40°C. Measurement accuracy up to 0.01%.
Contact person: Ing. Martina Šídlová, Ph.D. (martina.sidlova@vscht.cz)
Electronic Blaine Air-permeability apparatus Testing
Automatic device for measuring the air permeability of cement over time in order to obtain a specific particle surface (EN 196-6). The diameter of the measuring cell of the device is 41 mm, the volume of the measuring cell is approx. 75 cm3.
Contact person: Ing. Martina Šídlová, Ph.D. (martina.sidlova@vscht.cz)
Titrator Mettler Toledo EasyPlusTM
Multipurpose automatic potentiometric titrator for quantitative analyte determination. Measurement of acid-base, precipitation and oxidation-reduction titration, titration to the equivalence point or the pH end point. The volume of the stock titrant burette is 20 ml.
Contact person: Ing. Martina Šídlová, Ph.D. (martina.sidlova@vscht.cz)
Conductivity Meter Mettler Toledo SevenExcellenceTM
Multi-channel instrument including conductometer, pH meter and ion meter equipped with 731-ISM sensor.
Contact person: Ing. Martina Šídlová, Ph.D. (martina.sidlova@vscht.cz)
Dilatometer Matest E078 KIT
Device with indicator of length changes; stroke 12 mm, dial gauge with a resolution of 0.001 mm. Reference bars E078-01 for samples 25x25x250, 75x75x254 mm and bar E078-04 for samples 40x40x160 mm (EN 12617-4) are available.
Contact person: Ing. Martina Šídlová, Ph.D. (martina.sidlova@vscht.cz)
Air entrainment meter Testing 7304
Device for measuring the air content in fresh mortar (EN 1015-7) based on the Boyle-Marriott law, equipped with a 1 l measuring container.
Contact person: Ing. Martina Šídlová, Ph.D. (martina.sidlova@vscht.cz)
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[obsah] => Department of Glass and Ceramics participates on teaching and supervising students in following bachelor and master study programs and specializations in English:
- Study program Chemistry and Technology (BSc)
- specialization: Chemistry and Technology of Materials
- Study program Chemistry, Technology, and Materials (MSc)
- specialization: Materials Chemistry and Technology
e-mail addresses, phone numbers, rooms
Address
Department of Glass and Ceramics
Institute of Chemical Technology, Prague
Technicka 5
CZ-16628 Praha 6
Czech Republic
Phone, fax, email
Tel: +420 2 2044 4123
Fax: +420 2 2044 4350
Email: petra.dvorakova@vscht.cz (secretary)
Department Office, map
Building A, ground floor right, door 09
Satellite photo: [map]
Department of Glass and Ceramics has more than one hundred years tradition in the education of young professionals in the preparation and production of glass, ceramics, refractory materials and inorganic binders. In addition to teaching it also performs its own scientific research. The department has a long and successful collaboration with other Czech and foreign universities, research institutions and industrial partners.
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[seo_desc] => Prof. Dr. Willi Pabst
[autor] => Tereza Unger Uhlířová
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[obsah] => Teaching activities
- History of chemistry and materials (3h/week), for B.Sc. students (since 2012), formerly History of materials science and technology (2h/week), for B.Sc. students (2007-2012)
- Mechanics of materials (3h/week), for M.Sc. and ERASMUS students (since 1998)
- Technology of ceramics (5h/week), for M.Sc. and ERASMUS students (since 2006)
- Characterization of particles and microstructures (3h/week), for M.Sc. students (since 2016), formerly Characterization of particles and particle systems (2h/week, 2007-2015) and Characterization of nanoparticles, nanocrystalline and nanoporous materials (3h/week, 2012-2015)
- Microstructure and properties of heterogeneous materials (3h/week), for M.Sc. students (since 2016), formerly Microstructure and properties of porous materials (3h/week, 2007-2015) and Properties of heterogeneous and nanocrystalline materials (3h/week, 2012-2015)
- Theory and characterization of disperse systems and heterogeneous materials (2h/week), for Ph.D. students (since 2007)
- Supervision of B.Sc. theses, M.Sc. theses, Ph.D. theses, and ERASMUS projects.
- Responsible general guarantor for the newly accredited English M.Sc. study programme “Chemistry, Technology and Materials” (since 2019).
Education and degrees
- 1986-92: Studied mineralogy at the Institute of Mineralogy, Petrology and Geochemistry, Faculty of Geosciences, University of Tübingen / Germany
- 1993: M.Sc. thesis in Mineralogy at the Institute of Crystallography, Faculty of Physics (German title “Dipl.-Min.“ = “Diplom-Mineraloge“), University of Tübingen / Germany
- 1993-96: Postgraduate studies at the Department of Glass and Ceramics, Faculty of Chemical Technology, Institute of Chemical Technology in Prague (ICT Prague) / Czech Republic
- 1998: Ph.D. thesis in Chemistry and Technology of Inorganic Materials (Czech title „Dr.“), Department of Glass and Ceramics, FCHT, ICT Prague / Czech Republic
- 2005: Habilitation thesis in Chemistry and Technology of Inorganic Materials (Czech title „Doc.“), Department of Glass and Ceramics, FCHT, ICT Prague / Czech Republic
- 2016: Appointed professor in Chemistry and Technology of Inorganic Materials (Czech title „Prof.“), UCT Prague / Czech Republic
Professional career
- 1993-99: Research scientist, Department of Glass and Ceramics, ICT Prague
- 1999-2005: Assistant professor (lecturer), Department of Glass and Ceramics, ICT Prague
- 2006-2016: Associate professor, Department of Glass and Ceramics, ICT / UCT Prague
- Since 2016: Full professor, Department of Glass and Ceramics, UCT Prague
Research interests, R&D activities, projects and publications
- Theory of heterogeneous materials (microstructure-property relations of polycrystalline, multiphase or porous materials)
- Characterization of disperse systems (particle size and shape characterization, rheology of suspensions and pastes, viscometry and rheometry, stererology-based image analysis)
- Ceramic science and technology (theory and practice of shaping and sintering)
- History of chemistry, materials science and technology
- Since 2000 main applicant in 6 national and 3 international (bilateral) projects. Author and co-author of 105 impacted journal papers, H-index 31, more than 2000 non-auto citations on the WoS.
Publications
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. 42 (6), 2946-2956 (2022). DOI: 10.1016/j.jeurceramsoc.2022.01.053
- Nečina V., Hostaša J., Pabst W., Veselý M.: Magnesium fluoride (MgF2) – A novel sintering additive for the preparation of transparent YAG ceramics via SPS, J. Eur. Ceram. Soc. 42 (7), 3290-3296 (2022). DOI: 10.1016/j.jeurceramsoc.2022.02.003
- 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. 42 (4), 1396-1406 (2022). DOI: 10.1016/j.jeurceramsoc.2021.12.013
- 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. 41 (14), 7130-7140 (2021). DOI: 10.1016/j.jeurceramsoc.2021.07.031
- Šimonová P., Gregorová E., Pabst W.: Young’s modulus evolution during sintering and thermal cycling of pure tin oxide ceramics, J. Eur. Ceram. Soc. 41 (15), 7816-7827 (2021). DOI: 10.1016/j.jeurceramsoc.2021.08.055
- Šimonová P., Pabst W., Cibulková J.: Crystallite size of tin oxide ceramics and its growth during sintering determined from XRD line broadening – A methodological study and a practitioners’ guide, Ceram. Int. 47 (24), 35333-35347 (2021). DOI: 10.1016/j.ceramint.2021.09.076
- Pabst W., Uhlířová T.: Benchmark polynomials for the porosity dependence of elastic moduli and conductivity of partially sintered ceramics, J. Eur. Ceram. Soc. 41 (15), 7967-7975 (2021). DOI: 10.1016/j.jeurceramsoc.2021.08.028
- Hříbalová S., Pabst W.: Theoretical study of the influence of carbon contamination on the transparency of spinel ceramics prepared by spark plasma sintering (SPS), J. Eur. Ceram. Soc. 41 (7), 4337-4342 (2021). DOI: 10.1016/j.jeurceramsoc.2021.01.036
- Nečina V., Pabst W.: Grain growth of MgAl2O4 ceramics with LiF and NaF addition, Open Ceram. 5 (March), 100078 (2021). DOI: 10.1016/j.oceram.2021.100078
- Nečina V., Pabst W.: Transparent MgAl2O4 spinel ceramics prepared via sinter forging, J. Eur. Ceram. Soc. 41 (7), 4313-4318 (2021). DOI: 10.1016/j.jeurceramsoc.2021.02.017
- Gregorová E., Semrádová L., Sedlářová I., Nečina V., Hříbalová S., Pabst W.: Microstructure and Young’s modulus evolution during re-sintering of partially sintered alumina-zirconia composites (ATZ ceramics), J. Eur. Ceram. Soc. 41 (6), 3559-3569 (2021). DOI: 10.1016/j.jeurceramsoc.2021.01.045
- 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. 39 (5), 1893-1899 (2019). DOI: 10.1016/j.jeurceramsoc.2019.01.005
- Uhlířová T., Pabst W.: Thermal conductivity and Young’s modulus of cubic-cell metamaterials, Ceram. Int. 45 (1), 954-962 (2019). 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, Scripta Mater. 159 (1), 1-4 (2019). DOI: 10.1016/j.scriptamat.2018.09.005
- 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. 38 (11), 4026-4034 (2018). DOI: 10.1016/jeurceramsoc.2018.04.051
- 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. 44 (11), 12315-12328 (2018). DOI: 10.1016/j.ceramint.2018.04.019
- 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. 38 (7), 2694-2707 (2018). DOI: 10.1016/j.jeurceramsoc.2018.01.0140
- Uhlířová T., Nečina V., Pabst W.: Modeling of Young‘s modulus and thermal conductivity evolution of partially sintered alumina ceramics with pore changes from concave to convex, J. Eur. Ceram. Soc. 38 (8), 3004-3011 (2018). DOI: 10.1016/j.jeurceramsoc.2017.12.033
- 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. 38 (6), 2570-2578 (2018).DOI: 10.1016/j.jeurceramsoc.2018.01.019
- Gregorová E., Pabst W., Diblíková P., Nečina V.: Temperature dependence of damping in silica refractories measured via the impulse excitation technique, Ceram. Int. 44 (7), 8363-8373 (2018). DOI: 10.1016/j.ceramint.2018.02.028
- 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. 44 (7), 8100-8108 (2018). DOI: 10.1016/j.ceramint.2018.01.254
- Pabst W., Uhlířová E.: A generalized class of transformation matrices for the reconstruction of sphere size distributions from section circle size distributions, Ceram. Silik. 61 (2), 147-157 (2017).
- Rambaldi E., Pabst W., Gregorová E., Prete F., Bignozzi M. C.: Elastic properties of porous porcelain stoneware tiles, Ceram. Int. 43 (9), 6919-6924 (2017). DOI: 10.1016/j.ceramint.2017.02.114
- Pabst W., Gregorová E.: A generalized cross-property relation between the elastic moduli and conductivity of isotropic porous materials with spheroidal pores, Ceram. Silik. 61 (1), 74-80 (2017).
- 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. 36 (9), 2319-2328 (2016). DOI: 10.1016/j.jeurceramsoc.2015.12.053
- Pabst W., Gregorová E., Kloužek J., Kloužková A., Zemenová P., Kohoutková M., Sedlářová I., Lang K., Kotouček Miroslav, Nevřivová Lenka, Všianský Dalibor: High-temperature Young’s moduli and dilatation behavior of silica refractories, J. Eur. Ceram. Soc. 36 (1), 209-220 (2016). DOI: 10.1016/j.jeurceramsoc.2015.09.020
- 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. 36 (1), 109-120 (2016). DOI: 10.1016/j.jeurceramsoc.2015.09.028
- Pabst W., Gregorová E.: Elastic and thermal properties of porous materials – rigorous bounds and cross-property relations (Critical assessment 18), Mater. Sci. Technol. 31 (15), 1801-1808 (2015). DOI: 10.1080/02670836.2015.1114697
- Pabst W. Gregorová E., Rambaldi E., Bignozzi M. C.: Effective elastic constants of plagioclase feldspar aggregates in dependence of the anorthite content – a concise review, Ceram. Silik. 59 (4), 326-330 (2015).
- Pabst W. Gregorová E.: Minimum solid area models for the effective properties of porous materials – a refutation, Ceram. Silik. 59 (3), 244-249 (2015).
- Sandoval M. L., Talou M. H., Tomba Martinez A. G., Camerucci M. A., Gregorová E., Pabst W.: Starch consolidation casting of cordierite precursor mixtures – Rheological behavior and green body properties, J. Am. Ceram. Soc. 98 (10), 3014-3021 (2015).
- Gass S. E., Sandoval M. L., Talou M. H., Tomba Martinez A. G., Camerucci M. A., Gregorová E., Pabst W.: High-temperature mechanical behavior of porous cordierite-based ceramic materials evaluated using 3-point bending, Procedia Mater. Sci. 9C, 254-261 (2015).
- Pabst W., Gregorová E., Uhlířová T.: Microstructure characterization via stereological relations – a shortcut for beginners, Mater. Charact. 105 (1), 1-12 (2015).
- Gregorová E., Černý M., Pabst W., Esposito L., Zanelli C., Hamáček J., Kutzendörfer J.: Temperature dependence of Young’s modulus of silica refractories, Ceram. Int. 41 (1), 1129-1138 (2015).
- 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. 35 (1), 187-196 (2015).
- Uhlířová T., Hostaša J., Pabst W.: Characterization of the microstructure of YAG ceramics via stereology-based image analysis, Ceram. Silik. 58 (3), 173-183 (2014).
- Pabst W., Gregorová E.: Young’s modulus of isotropic porous materials with spheroidal pores, J. Eur. Ceram. Soc. 34 (13), 3195-3207 (2014).
- Pabst W., Gregorová E.: Conductivity of porous materials with spheroidal pores, J. Eur. Ceram. Soc. 34 (11), 2757-2766 (2014).
- Pabst W., Hostaša J., Esposito L.: Porosity and pore size dependence of the real in-line transmission of YAG and alumina ceramics, J. Eur. Ceram. Soc. 34 (11), 2745-2756 (2014).
- Hostaša J., Matějíček J., Nait-Ali B., Smith D. S., Pabst W., Esposito L.: Thermal properties of transparent Yb-doped YAG ceramics at elevated temperatures, J. Am. Ceram. Soc. 97 (8), 2602-2606 (2014).
- Pabst W., Gregorová E., Kutzendörfer J.: Elastic anomalies in tridymite- and cristobalite-based silica materials, Ceram. Intern. 40 (3), 4207-4211 (2014).
- Pabst W., Gregorová E.: The thermal conductivity of alumina-water nanofluids from the viewpoint of micromechanics, Microfluid. Nanofluid. 16 (1-2), 19-28 (2014).
- Pabst W., Gregorová E., Černý M.: Isothermal and adiabatic Young’s moduli of alumina and zirconia ceramics at elevated temperatures, J. Eur. Ceram. Soc. 33 (15-16), 3085-3093 (2013).
- Pabst W., Gregorová E., Uhlířová T., Musilová A.: Elastic properties of mullite and mullite-containing ceramics – Part I: Theoretical aspects and review of monocrystal data, Ceram. Silik. 57 (4), 265-274 (2013).
- Pabst W., Gregorová E.: Elastic properties of silica polymorphs – a review, Ceram. Silik. 57 (3), 167-184 (2013).
- Pabst W., Hostaša J.: A closed-form expression approximating the Mie solution for the real-in-line transmission of ceramics with spherical inclusions or pores, Ceram. Silik. 57 (2), 151-161 (2013).
- Pabst W., Gregorová E., Malangré D., Hostaša J.: Elastic properties and damping behavior of alumina-zirconia composites at room temperature, Ceram. Int. 38 (7), 5931-5939 (2012).
- Hostaša J., Pabst W., Matějíček J.: Thermal conductivity of Al2O3-ZrO2 composite ceramics, J. Am. Ceram. Soc. 94 (12), 4404-4409 (2011).
- Pabst W., Gregorová E., Sedlářová I., Černý M.: Preparation and characterization of porous alumina-zirconia composite ceramics, J. Eur. Ceram. Soc. 31 (14), 2721-2731 (2011).
- Gregorová E., Pabst W.: Process control and optimized preparation of porous alumina ceramics by starch consolidation casting, J. Eur. Ceram. Soc. 31 (12), 2073-2081 (2011).
- Gregorová E., Pabst W., Živcová Z., Sedlářová I., Holíková S.: Porous alumina ceramics prepared with wheat flour, J. Eur. Ceram. Soc. 30 (14), 2871-2880 (2010).
- Živcová Z., Gregorová E., Pabst W.: Low- and high-temperature processes and mechanisms in the preparation of porous ceramics via starch consolidation casting, Starch Staerke 62 (1), 3-10 (2010).
- Presser V., Kohler C., Živcová Z., Berthold C., Nickel K.-G., Schultheiß S., Gregorová E., Pabst W.: Sea urchin spines as a model-system for permeable, light-weight ceramics with graceful failure behavior. Part II. Mechanical behavior of sea urchin spine inspired porous aluminum oxide ceramics under compression, J. Bionic Eng. 6 (4), 357-364 (2009).
- Živcová Z., Černý M., Pabst W., Gregorová E.: Elastic properties of porous oxide ceramics prepared using starch as a pore-forming agent, J. Eur. Ceram. Soc. 29, 2765-2771 (2009).
- Gregorová E., Živcová Z., Pabst W.: Starch as a pore-forming and body-forming agent in ceramic technology, Starch Staerke 61 (9), 495-502 (2009).
- Živcová Z., Gregorová E., Pabst W., Smith D.S., Michot A., Poulier C.: Thermal conductivity of porous alumina ceramics prepared using starch as a pore-forming agent, J. Eur. Ceram. Soc. 29, 347-353 (2009).
- Gregorová E., Pabst W., Bouchet J.-B.: Influence of particle shape on the viscosity of kaolin suspensions, Acta Geodyn. Geomater. 6, 101-109 (2009).
- Pabst W., Kořánová R.: Prehistory of clay mineralogy – from ancient times to Agricola, Acta Geodyn. Geomater. 6, 87-100 (2009).
Books, book chapters, etc.
- 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. https://doi.org/10.52305/MSNC3801
- Uhlířová T., Hostaša J., Gregorová E., Pabst W.: Characterization of ceramic materials via image analysis (Chapter IV, Section 21.13, pp. 326–332) in: Kadlec K., Kmínek M., Kadlec P. (eds.): Measurement and Control of Chemical, Food and Biotechnological Processes. Part II. Process Control (ISBN single volume 978-1-908235-10-7 / 978-80-7418-307-2, 2-volume set 978-1-908235-08-4 / 978-80-7418-305-8). 656 pp. KEY Publishing, Ostrava and STS Science Center, London 2019.
- Štětina J., Šárka E., Uhlířová T., Gregorová E., Pabst W., Bubník Z.: Sizing of particles, pores and porous materials (Chapter II, Section 11.1, pp. 572–590) in: Kadlec K., Kmínek M., Kadlec P. (eds.): Measurement and Control of Chemical, Food and Biotechnological Processes. Part I. Process Measurements (ISBN single volume 978-1-908235-09-1 / 978-80-7418-306-5, 2-volume set 978-1-908235-08-4 / 978-80-7418-305-8). 610 pp. KEY Publishing, Ostrava and STS Science Center, London 2019.
- Nečina V., Pabst W.: Electric current assisted sintering of ceramics – steps and pitfalls on the way to transparency, pp. 99-178 in Olson J. (ed.): Polycrystalline Materials – Synthesis, Performance and Applications (ISBN softcover 978-1-53613-864-1, e-book 978-1-53613-865-8). 187 pp. Nova Science Publishers, New York 2018.
- Pabst W., Nečina V., Uhlířová T.: Basic concepts and classical models of solid state sintering, pp. 1-64 in Olson J. (ed.): Polycrystalline Materials – Synthesis, Performance and Applications (ISBN softcover 978-1-53613-864-1, e-book 978-1-53613-865-8). 187 pp. Nova Science Publishers, New York 2018.
- Pabst W., Gregorová E., Uhlířová T., Nečina V.: Mechanical and thermomechanical behavior of refractories – from basic concepts to effective property calculations, pp. 33-132 in Bryant C. (ed.): Refractory Materials – Characteristics, Properties and Uses (ISBN hardcover 978-1-53613-862-7, e-book 978-1-53613-863-4). 238 pp. Nova Science Publishers, New York 2018.
- Uhlířová T., Hostaša J., Gregorová E., Pabst W.: Charakterizace keramických materiálů obrazovou analýzou, část IV, sekce 21.13 v knize Kadlec K., Kmínek M., Kadlec P. (eds.) a kolektiv: Měření a řízení chemických, potravinářských a biotechnologických procesů. Díl II. Řízení technologických procesů (ISBN 978-80-7418-285-3 resp. pro dvousvazkovou edici 978-80-7418-283-9). KEY Publishing, Ostrava 2017.
- Štětina J., Šárka E., Uhlířová T., Gregorová E., Pabst W., Bubník Z.: Měření velikosti částic, pórů a pórovitosti materiálů, část II, kapitola 11 v knize Kadlec K., Kmínek M., Kadlec P. (eds.) a kolektiv: Měření a řízení chemických, potravinářských a biotechnologických procesů. Díl I. Provozní měření (ISBN 978-80-7418-284-6 resp. pro dvousvazkovou edici 978-80-7418-283-9). KEY Publishing, Ostrava 2017.
- Uhlířová T., Gregorová E., Pabst W.: Direct foaming techniques for the preparation of cellular ceramics, their microstructural characterization and property-porosity relations – a review, pp. 127-158 in Newton A. (ed.): Advances in Porous Ceramics (ISBN hardcover 978-1-63485-839-7, e-book 978-1-63485-860-1). 188 pp. Nova Science Publishers, New York 2017.
- Pabst W., Gregorová E., Uhlířová T.: Processing, microstructure, properties, applications and curvature-based classification schemes of porous ceramics, pp. 1-52 in Newton A. (ed.): Advances in Porous Ceramics (ISBN hardcover 978-1-63485-839-7, e-book 978-1-63485-860-1). 188 pp. Nova Science Publishers, New York 2017.
- Pabst W., Hostaša J.: Thermal conductivity of ceramics: from monolithic to multiphase, from dense to porous, from micro to nano, pp. 1-112 in Wythers M.C. (ed.): Advances in Materials Science Research – Volume 7 (ISBN 978-1-61209-821-0). 315 pp. Nova Science Publishers, New York 2012.
- Pabst W., Gregorová E.: Phase Mixture Models for the Properties of Nanoceramics, 74 pp. (softcover ISBN 978-1-61668-673-4, e-book ISBN 978-1-61668-898-1). Nova Science Publishers, New York 2010.
- Pabst W., Gregorová E.: Phase mixture models and unit-cell calculations for the effective elastic and thermal properties of nanocrystalline ceramics, pp. 121-162 in Bartul Z., Trenor J. (eds.): Advances in Nanotechnology, Volume 3 (hardcover ISBN 978-1-61668-161-6, e-book ISBN 979-1-61761-751-5). Nova Science Publishers, New York 2010.
- Gregorová E., Živcová Z., Pabst W.: Porous ceramics made using potato starch as a pore-forming agent, pp. 115-127 in Tennant P., Benkeblia N. (eds.) Potato II (= Special issue of Fruit, Vegetable and Cereal Science and Biotechnology). Global Science Books Ltd., Isleworth (UK) and Miki (Japan) 2009 (ISBN 978-4-903313-26-9) = Fruit, Vegetable and Cereal Science and Biotechnology 3 (Special issue 1), 115-127 (2009) (ISSN 1752-3419).
- Pabst W.: Steps across the border - from micromechanics to the properties of nanoceramics, pp. 207-228 in Tseng T.-Y., Nalwa H. S. (eds.): Handbook of Nanoceramics and Their Based Nanodevices – Volume 3 (hardcover ISBN 1-58883-114-0). American Scientific Publishers, Stevenson Ranch (California) 2009.
- Pabst W., Gregorová E.: Effective thermal and thermoelastic properties of alumina, zirconia and alumina-zirconia composite ceramics, pp. 77-137 in Caruta B. M. (ed.): New Developments in Materials Science Research (hardcover ISBN 1-59454-854-4). Nova Science Publishers, New York 2007.
- Pabst W., Gregorová E.: Effective elastic moduli of alumina, zirconia and alumina-zirconia composite ceramics, pp. 31-100 in Caruta B. M. (ed.): Ceramics and Composites: New Research (hardcover ISBN 1-59454-370-4, e-book ISBN 978-1-60876-508-9). Nova Science Publishers, New York 2006.