Effect of cyclic heat treatment parameters on the grain refinement of Ti–48Al–2Cr–2Nb alloy A Kościelna, W Szkliniarz Materials Characterization 60 (10), 1158-1162, 2009 | 50 | 2009 |
Microstructure and chemical composition of phases in Ti–48Al–2Cr–2Nb intermetallic alloy J Chrapoński, W Szkliniarz, A Kościelna, B Serek Materials chemistry and physics 81 (2-3), 438-442, 2003 | 41 | 2003 |
Improvement of oxidation resistance of Ti–47Al–2W–0.5 Si alloy modified by aluminizing method A Szkliniarz, G Moskal, W Szkliniarz, R Swadźba Surface and Coatings Technology 277, 270-277, 2015 | 23 | 2015 |
The chemical composition and microstructure of Ti-47Al-2W-0.5 Si alloy melted in ceramic crucibles W Szkliniarz, A Szkliniarz Solid State Phenomena 191, 211-220, 2012 | 19 | 2012 |
Substructure of titanium alloys after cyclic heat treatment W Szkliniarz, J Chrapoński, A Kościelna, B Serek Materials chemistry and physics 81 (2-3), 538-541, 2003 | 14 | 2003 |
Assessment of quality of Ti alloys melted in induction furnace with ceramic crucible A Szkliniarz, W Szkliniarz Solid State Phenomena 176, 139-148, 2011 | 13 | 2011 |
Characteristics of plasticity of hot deformed Cu-Ti alloys ŁJ Szkliniarz A., Blacha L., Szkliniarz W. Archives of Metallurgy and Materials 59 (4), 1113-1118, 2014 | 12* | 2014 |
Grain refinement of Ti-48Al-2Cr-2Nb alloy by heat treatment method A Szkliniarz Solid State Phenomena 191, 221-234, 2012 | 12 | 2012 |
Effect of modification and cooling rate on the macrostructure of IN-713C alloy F Binczyk, J Śleziona, A Kościelna Archives of Foundry Engineering 9 (3), 13-16, 2009 | 11 | 2009 |
Effects of Boron, Carbon, and Gadolinium Additions on the Microstructure and Grain Size of Ti-48Al-2Cr-2Nb Alloy W Szkliniarz, T Mikuszewski, J Chrapoński, B Juszczyk, A Kościelna Proc. 10th World Conference on Titanium, 23-47, 2003 | 11 | 2003 |
The characteristics of TiAl-based alloys melted in graphite crucibles W Szkliniarz, A Szkliniarz Materials Science and Technology 35 (3), 297-305, 2019 | 10 | 2019 |
Quantitative characterization of microstructure of Ti-47Al-2W-0.5 Si alloy after melting in vacuum induction furnace W Szkliniarz, A Szkliniarz Solid State Phenomena 197, 113-118, 2013 | 10 | 2013 |
Fundamentals of manufacturing technologies for aircraft engine parts made of TiAl based alloys W Szkliniarz, A Szkliniarz Archives of Metallurgy and Materials 61 (3), 1385--1390, 2016 | 9 | 2016 |
Microstructure of Hot-Deformed Cu-3Ti Alloy A Szkliniarz, W Szkliniarz, L Blacha, G Siwiec Archives of Metallurgy and Materials 61, 2016 | 9 | 2016 |
Microstructure and properties of TiAl-based alloys melted in graphite crucible W Szkliniarz, A Szkliniarz Metals 11 (4), 669, 2021 | 8 | 2021 |
Microstructure and Properties of Beta 21S Alloy with 0.2 wt.% of Carbon A Szkliniarz Solid State Phenomena 246, 19-24, 2016 | 7 | 2016 |
Deformation of Ti-6Al-4V alloy with carbon A Szkliniarz Solid State Phenomena 176, 149-156, 2011 | 7 | 2011 |
Wykorzystanie cyklicznej obróbki cieplnej do rozdrabniania ziarna stopu na osnowie fazy międzymetalicznej TiAl A Kościelna, W Szkliniarz Inżynieria Materiałowa 25 (6), 864-868, 2004 | 7 | 2004 |
Carbon in Commercially Pure Titanium A Szkliniarz, W Szkliniarz Materials 16 (2), 711, 2023 | 6 | 2023 |
Effect of Carbon Content on the Microstructure and Properties of Ti-6Al-4V alloy A Szkliniarz, W Szkliniarz Archives of Metallurgy and Materials 65 (3), 2020 | 6 | 2020 |