Obserwuj
Krzysztof Rokosz
Krzysztof Rokosz
Zweryfikowany adres z tu.koszalin.pl
Tytuł
Cytowane przez
Cytowane przez
Rok
Electrochemical and XPS studies of AISI 316L stainless steel after electropolishing in a magnetic field
T Hryniewicz, K Rokosz, R Rokicki
Corrosion Science 50 (9), 2676-2681, 2008
1702008
Corrosion and surface characterization of titanium biomaterial after magnetoelectropolishing
T Hryniewicz, R Rokicki, K Rokosz
Surface and Coatings Technology 203 (10-11), 1508-1515, 2009
1132009
Surface characterization of AISI 316L biomaterials obtained by electropolishing in a magnetic field
T Hryniewicz, R Rokicki, K Rokosz
Surface and Coatings Technology 202 (9), 1668-1673, 2008
1122008
SEM/EDX and XPS studies of niobium after electropolishing
T Hryniewicz, K Rokosz, HRZ Sandim
Applied Surface Science 263, 357-361, 2012
992012
Analysis of XPS results of AISI 316L SS electropolished and magnetoelectropolished at varying conditions
T Hryniewicz, K Rokosz
Surface and Coatings Technology 204 (16-17), 2583-2592, 2010
952010
Biomaterial studies on AISI 316L stainless steel after magnetoelectropolishing
T Hryniewicz, K Rokosz, M Filippi
Materials 2 (1), 129-145, 2009
952009
Co–Cr alloy corrosion behaviour after electropolishing and “magnetoelectropolishing” treatments
T Hryniewicz, R Rokicki, K Rokosz
Materials Letters 62 (17-18), 3073-3076, 2008
882008
Magnetoelectropolishing for metal surface modification
T Hryniewicz, R Rokicki, K Rokosz
Transactions of the IMF 85 (6), 325-332, 2007
852007
SEM, EDS and XPS analysis of the coatings obtained on titanium after plasma electrolytic oxidation in electrolytes containing copper nitrate
K Rokosz, T Hryniewicz, D Matýsek, S Raaen, J Valíček, Ł Dudek, ...
Materials 9 (5), 318, 2016
842016
XPS depth profiling analysis of passive surface layers formed on austenitic AISI 304L and AISI 316L SS after high-current-density electropolishing
K Rokosz, J Lahtinen, T Hryniewicz, S Rzadkiewicz
Surface and Coatings Technology 276, 516-520, 2015
802015
Effect of magnetoelectropolishing on nanohardness and Young's modulus of titanium biomaterial
T Hryniewicz, K Rokosz, J Valíček, R Rokicki
Materials Letters 83, 69-72, 2012
802012
Corrosion characteristics of medical-grade AISI Type 316L stainless steel surface after electropolishing in a magnetic field
T Hryniewicz, R Rokicki, K Rokosz
Corrosion 64 (8), 660-665, 2008
792008
Characterization of passive film formed on AISI 316L stainless steel after magnetoelectropolishing in a broad range of polarization parameters
K Rokosz, T Hryniewicz, S Raaen
Steel Research International 83 (9), 910-918, 2012
752012
Development of plasma electrolytic oxidation for improved Ti6Al4V biomaterial surface properties
K Rokosz, T Hryniewicz, S Raaen
The international journal of advanced manufacturing technology 85, 2425-2437, 2016
742016
Comparative XPS analysis of passive layers composition formed on AISI 304 L SS after standard and high‐current density electropolishing
K Rokosz, F Simon, T Hryniewicz, S Rzadkiewicz
Surface and Interface Analysis 47 (1), 87-92, 2015
692015
Investigation of selected surface properties of AISI 316L SS after magnetoelectropolishing
T Hryniewicz, K Rokosz
Materials Chemistry and Physics 123 (1), 47-55, 2010
692010
Polarization characteristics of magnetoelectropolishing stainless steels
T Hryniewicz, K Rokosz
Materials Chemistry and Physics 122 (1), 169-174, 2010
682010
SIMS analysis of hydrogen content in near surface layers of AISI 316L SS after electrolytic polishing under different conditions
T Hryniewicz, P Konarski, K Rokosz, R Rokicki
Surface and Coatings Technology 205 (17-18), 4228-4236, 2011
632011
Nanoindentation and XPS studies of Titanium TNZ alloy after electrochemical polishing in a magnetic field
T Hryniewicz, K Rokosz, R Rokicki, F Prima
Materials 8 (1), 205-215, 2015
622015
GDOES, XPS, and SEM with EDS analysis of porous coatings obtained on titanium after plasma electrolytic oxidation
K Rokosz, T Hryniewicz, S Raaen, P Chapon, Ł Dudek
Surface and Interface Analysis 49 (4), 303-315, 2017
592017
Nie można teraz wykonać tej operacji. Spróbuj ponownie później.
Prace 1–20