Directional solidification of intermetallic Ti–46Al–2W–0.5 Si alloy in alumina moulds J Lapin, M Nazmy Intermetallics 10 (10), 1019-1031, 2002 | 210 | 2002 |
Influence of oxygen on solidification behaviour of cast TiAl-based alloys J Zollinger, J Lapin, D Daloz, H Combeau Intermetallics 15 (10), 1343-1350, 2007 | 138 | 2007 |
Solidification behaviour of TiAl-based alloys studied by directional solidification technique J Lapin, Z Gabalcová Intermetallics 19 (6), 797-804, 2011 | 121 | 2011 |
Effect of Y2O3 crucible on contamination of directionally solidified intermetallic Ti–46Al–8Nb alloy J Lapin, Z Gabalcová, T Pelachová Intermetallics 19 (3), 396-403, 2011 | 101 | 2011 |
TiAl-based alloys: Present status and future perspectives J Lapin Conference proceedings METAL 19 (21.5), 2009, 2009 | 101 | 2009 |
Microstructure and creep properties of a cast intermetallic Ti–46Al–2W–0.5 Si alloy for gas turbine applications J Lapin, M Nazmy Materials Science and Engineering: A 380 (1-2), 298-307, 2004 | 82 | 2004 |
Creep behaviour of a cast TiAl-based alloy for industrial applications J Lapin Intermetallics 14 (2), 115-122, 2006 | 63 | 2006 |
Processing, microstructure and mechanical properties of in-situ Ti3Al+ TiAl matrix composite reinforced with Ti2AlC particles prepared by centrifugal casting J Lapin, K Kamyshnykova Intermetallics 98, 34-44, 2018 | 62 | 2018 |
Effect of Al2O3 particles on mechanical properties of directionally solidified intermetallic Ti–46Al–2W–0.5 Si alloy J Lapin, L Ondrúš, O Bajana Materials Science and Engineering: A 360 (1-2), 85-95, 2003 | 62 | 2003 |
Fracture behaviour of cast in-situ TiAl matrix composite reinforced with carbide particles J Lapin, M Štamborská, T Pelachová, O Bajana Materials Science and Engineering: A 721, 1-7, 2018 | 56 | 2018 |
Microstructure and mechanical properties of cast in-situ TiAl matrix composites reinforced with (Ti, Nb) 2AlC particles J Lapin, A Klimová, Z Gabalcová, T Pelachová, O Bajana, M Štamborská Materials & Design 133, 404-415, 2017 | 55 | 2017 |
An experimental–numerical method for estimating heat transfer in a Bridgman furnace RP Mooney, S McFadden, Z Gabalcová, J Lapin Applied Thermal Engineering 67 (1-2), 61-71, 2014 | 53 | 2014 |
Directional solidification of Ni-Al-Cr-Fe alloy J Lapin, A Klimova, R Velisek, M Kursa Scripta Materialia 37 (1), 1997 | 48 | 1997 |
High temperature deformation behaviour and microstructure of cast in-situ TiAl matrix composite reinforced with carbide particles J Lapin, T Pelachová, O Bajana Journal of Alloys and Compounds 797, 754-765, 2019 | 46 | 2019 |
Vacuum induction melting and solidification of TiAl-based alloy in graphite crucibles K Kamyshnykova, J Lapin Vacuum 154, 218-226, 2018 | 46 | 2018 |
Effect of long-term ageing on microstructure stability and lattice parameters of coexisting phases in intermetallic Ti–46Al–8Ta alloy J Lapin, T Pelachová, VT Witusiewicz, E Dobročka Intermetallics 19 (1), 121-124, 2011 | 36 | 2011 |
Long-term creep behaviour of cast TiAl-Ta alloy J Lapin, T Pelachová, M Dománková Intermetallics 95, 24-32, 2018 | 35 | 2018 |
Vacuum induction melting and casting of TiAl-based matrix in-situ composites reinforced by carbide particles using graphite crucibles and moulds J Lapin, A Klimová Vacuum 169, 108930, 2019 | 34 | 2019 |
Room temperature mechanical behaviour of cast in-situ TiAl matrix composite reinforced with carbide particles J Lapin, M Štamborská, K Kamyshnykova, T Pelachová, A Klimová, ... Intermetallics 105, 113-123, 2019 | 34 | 2019 |
Creep behavior of a cast intermetallic Ti–45.2 Al–2W–0.6 Si–0.7 B alloy J Lapin Scripta materialia 50 (2), 261-265, 2004 | 32 | 2004 |