| Thermal conductivity of Newtonian and non-Newtonian liquids L Broniarz-Press, K Pralat International journal of heat and mass transfer 52 (21-22), 4701-4710, 2009 | 30 | 2009 |
| Influence of Tylose MH1000 content on gypsum thermal conductivity D Heim, A Mrowiec, K Pralat, M Mucha Journal of Materials in Civil Engineering 30 (3), 04018002, 2018 | 29 | 2018 |
| Low-density geopolymer composites for the construction industry VV Nguyen, VS Le, P Louda, MM Szczypiński, R Ercoli, V Růžek, P Łoś, ... Polymers 14 (2), 304, 2022 | 26 | 2022 |
| The fabrication of geopolymer foam composites incorporating coke dust waste B Katarzyna, CH Le, P Louda, S Michał, T Bakalova, P Tadeusz, K Prałat Processes 8 (9), 1052, 2020 | 23 | 2020 |
| Mechanical and thermal properties of geopolymer foams (GFs) doped with by-products of the secondary aluminum industry R Ercoli, D Laskowska, VV Nguyen, VS Le, P Louda, P Łoś, J Ciemnicka, ... Polymers 14 (4), 703, 2022 | 20 | 2022 |
| Changes in the strength properties and phase transition of gypsum modified with microspheres, aerogel and HEMC polymer J Ciemnicka, K Prałat, A Koper, G Makomaski, Ł Majewski, K Wójcicka, ... Materials 14 (13), 3486, 2021 | 19 | 2021 |
| Research on thermal conductivity of the wood and analysis of results obtained by the hot wire method K Prałat Experimental Techniques 40, 973-980, 2016 | 19 | 2016 |
| Utilization of biomass to ash: An overview of the potential resources for alternative energy N Makul, R Fediuk, M Amran, MS Al-Akwaa, K Pralat, D Nemova, ... Materials 14 (21), 6482, 2021 | 18 | 2021 |
| Influence of the calcination temperature of synthetic gypsum on the particle size distribution and setting time of modified building materials A Koper, K Prałat, J Ciemnicka, K Buczkowska Energies 13 (21), 5759, 2020 | 18 | 2020 |
| Comparison of the thermal properties of geopolymer and modified gypsum K Prałat, J Ciemnicka, A Koper, KE Buczkowska, P Łoś Polymers 13 (8), 1220, 2021 | 16 | 2021 |
| Analysis and interpretation of results of thermal conductivity obtained by the hot wire method D Heim, A Mrowiec, K Prałat Experimental Techniques 40, 513-519, 2016 | 15 | 2016 |
| Application of experimental setup for the thermal conductivity measurement of building materials using the “hot wire” method K Prałat, M Grabowski, W Kubissa, R Jaskulski, J Ciemnicka Scientific Review Engineering and Environmental Sciences 2019 (1)), 153-160, 2019 | 13 | 2019 |
| Influence of selected micro additives content on thermal properties of gypsum J Ciemnicka, R Jaskulski, W Kubissa, K Prałat Architecture, Civil Engineering, Environment 12 (3), 69-79, 2019 | 11 | 2019 |
| A particle size distribution measurements of selected building materials using laser diffraction method K Prałat, E Krymarys Technical Transactions 115 (5), 95-108, 2018 | 9 | 2018 |
| Analysis of the thermal properties and structure of gypsum modified with cellulose based polymer and aerogels K Prałat, R Jaskulski, J Ciemnicka, G Makomaski Archives of Civil Engineering 66 (4), 2020 | 8 | 2020 |
| Wpływ wybranych mikrododatków na przewodnictwo cieplne oraz mikrostrukturę powierzchni modyfi kowanych gipsów K Pralat, W Kubissa, R Jaskulski, J Ciemnicka, S Pilarczyk Acta Scientiarum Polonorum. Architectura 18 (1), 2019 | 8 | 2019 |
| The fabrication of geopolymer foam composites incorporating coke dust waste K Buczkowska, H Chi, P Louda, M Szczypiński, T Bakalova, T Pacyniak, ... Processes 8 (1020), 2020 | 7 | 2020 |
| Practical Aspects of Chemical Engineering M Ochowiak, S Woziwodzki, PT Mitkowski, M Doligalski Seminar on Practical Aspects of Chemical Engineering; Springer: Zaniemysl …, 2019 | 7 | 2019 |
| Determination of the thermal parameters of geopolymers modified with iron powder K Prałat, J Ciemnicka, A Koper, MM Szczypiński, P Łoś, VV Nguyen, ... Polymers 14 (10), 2009, 2022 | 6 | 2022 |
| Experimental study of the basic mechanical properties of hardened gypsum paste modified with addition of polyoxymethylene micrograins K Prałat, M Łukasiewicz, P Miczko Archives of Civil Engineering 66 (2), 2020 | 5 | 2020 |
