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Gawlicki M., Glinicki M.A., Innowacyjne rozwiązania w zakresie redukcji CO2 w przemyśle materiałów budowlanych,
PRACE INSTYTUTU CERAMIKI I MATERIAŁÓW BUDOWLANYCH, 5, 9, 44-54, 2012 |  |
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Szklarski J., Nondeterministic Cellular Automaton for Modelling Urban Traffic with Self-organizing Control,
PPAM2018, PARALLEL PROCESSING AND APPLIED MATHEMATICS, 2018-09-10/09-13, LUBLIN (PL), 446-455, 2018 | |
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Szklarski J., Zawidzka E., Zawidzki M., Reinforced Learning for Ground Movement of the Hyperreduntant Modular Robot,
PP-RAI 2024, PP-RAI 2024: 5TH POLISH CONFERENCE ON ARTIFICIAL INTELLIGENCE, 2024-04-18/04-20, WARSZAWA (PL), 1-8, 2024 | |
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Nisar F.,Rojek J.,Nosewicz S.,Kaszyca K.,Chmielewski M., Evaluation of effective thermal conductivity of sintered porous materials using an improved discrete element model,
POWDER TECHNOLOGY, 437, 119546-, 2024 |  |
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Rojek J., Kasztelan R., Tharmaraj R., Discrete element thermal conductance model for sintered particles,
POWDER TECHNOLOGY, 405, 117521-1-10, 2022 | |
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Sielamowicz I., Czech A., Kowalewski T.A., Comparative analysis of empirical descriptions of eccentricflow in silo model by the linear and nonlinear regressions,
POWDER TECHNOLOGY, 270, 393-410, 2015 | |
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Nosewicz S., Rojek J., Pietrzak K., Chmielewski M., Viscoelastic discrete element model of powder sintering,
POWDER TECHNOLOGY, 246, 157-168, 2013 | |
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Balevičius R., Sielamowicz I., Mróz Z., Kačianauskas R., Investigation of wall stress and outflow rate in a flat-bottomed bin: a comparison of the DEM model results with the experimental measurements,
POWDER TECHNOLOGY, 214, 322-336, 2011 | |
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Sielamowicz I., Czech M., Kowalewski T.A., Empirical analysis of eccentric flow registered by the DPIV technique inside a silo model,
POWDER TECHNOLOGY, 212, 38-56, 2011 | |
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Sielamowicz I., Czech M., Kowalewski T.A., Empirical description of flow parameters in eccentric flow inside a silo model,
POWDER TECHNOLOGY, 198, 381-394, 2010 | |
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Balevičius R., Kačianauskas R., Mróz Z., Sielamowicz I., Discrete particle investigation of friction effect in filling and unsteady/steady discharge in three-dimensional wedge shaped hopper,
POWDER TECHNOLOGY, 187, 2, 159-174, 2008 | |
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Myslyvchenko O.M., Lytvyn R.V., Grinkevich K.E., Zgalat-Lozynskyy O.B., Tkachenko I.V., Bloschanevich O.M., Ivanchenko S.E., Novichenko V.M., Haponova O.P., Laser Processing of High-Entropy VNb2TaCrMoWTi0.3B0.6 Alloy Coatings for Wear Reduction in Dry Friction with Different Counterfaces,
POWDER METALLURGY AND METAL CERAMICS, 62, 5-6, 339-349, 2023 | |
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Jach K., Pietrzak K., Wajler A., Strojny-Nędza A., Fabrication of an alumina-copper composite using a ceramic preform,
POWDER METALLURGY AND METAL CERAMICS, 52, 11-12, 680-685, 2014 | |
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Nowak K.M., Nowak L.J., Experimental validation of the tuneable diaphragm effect in modern acoustic stethoscopes,
POSTGRADUATE MEDICAL JOURNAL, 93, 523-527, 2017 | |
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Czerkies M., Raczkowska A., Brzostek K., Quo vadis Yersinia pestis? Ewolucja patogennych gatunków z rodzaju Yersinia [Quo vadis Yersinia pestis? The evolution of pathogenic species of the genus Yersinia],
POSTĘPY MIKROBIOLOGII, 48, 3, 181-196, 2009 | |
