Dr. Tadeusz Hryniewicz
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Dr. Tadeusz Hryniewicz

Professor
Koszalin University of Technology, Poland

Highest Degree
Ph.D. in Chemical Engineering from University of California, USA

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Area of Interest:

Engineering
100%
Chemical Engineering
62%
Mechanical Engineering
90%
Polymeric Engineering
75%
Material Science
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Rokosz, K., T. Hryniewicz, S. Gaiaschi, P. Chapon and S. Raaen et al., 2018. Novel porous phosphorus-calcium-magnesium coatings on titanium with copper or zinc obtained by DC plasma electrolytic oxidation: Fabrication and characterization. Materials, Vol. 11. 10.3390/ma11091680.
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  2. Rokosz, K., T. Hryniewicz, S. Gaiaschi, P. Chapon and S. Raaen et al., 2018. Development of porous coatings enriched with magnesium and zinc obtained by DC plasma electrolytic oxidation. Micromachines, Vol. 9. 10.3390/mi9070332.
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  3. Rokosz, K., T. Hryniewicz, S. Gaiaschi, P. Chapon and S. Raaen et al., 2018. Characterization of porous phosphate coatings enriched with magnesium or zinc on cp titanium grade 2 under DC plasma electrolytic oxidation. Metals, Vol. 8. 10.3390/met8020112.
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  4. Rokosz, K., T. Hryniewicz, S. Gaiaschi, P. Chapon and S. Raaen et al., 2018. Characterisation of porous coatings formed on titanium under AC plasma electrolytic oxidation. MATEC Web Confer., Vol. 178. 10.1051/matecconf/201817803008.
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  5. Hryniewicz, T., K. Rokosz, S. Gaiaschi, P. Chapon, R. Rokicki and D. Matysek, 2018. GDOES analysis of niobium de-hydrogenation after electropolishing processes. Mater. Lett., 218: 299-304.
    CrossRef  |  
  6. Rokosz, K., T. Hryniewicz, S. Raaen, P. Chapon and Ł. Dudek, 2017. GDOES, XPS and SEM with EDS analysis of porous coatings obtained on titanium after plasma electrolytic oxidation. Surface Interface Anal., 49: 303-315.
    CrossRef  |  Direct Link  |  
  7. Rokosz, K., T. Hryniewicz, S. Raaen, P. Chapon and F. Prima, 2017. Development of copper-enriched porous coatings on ternary Ti-Nb-Zr alloy by plasma electrolytic oxidation. Int. J. Adv. Manufact. Technol., 89: 2953-2965.
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  8. Rokosz, K., T. Hryniewicz, S. Gaiaschi, P. Chapon, S. Raaen, K. Pietrzak and W. Malorny, 2017. Characterisation of calcium-and phosphorus-enriched porous coatings on CP Titanium Grade 2 fabricated by plasma electrolytic oxidation. Metals, Vol. 7. 10.3390/met7090354.
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  9. Rokosz, K., T. Hryniewicz, K. Pietrzak, P. Sadlak and J. ValØček, 2017. Fabrication and characterisation of porous, calcium enriched coatings on titanium after plasma electrolytic oxidation under DC regime. Adv. Mater. Sci., 17: 55-67.
    Direct Link  |  
  10. Rokosz, K., T. Hryniewicz, K. Pietrzak and W. Malorny, 2017. SEM and EDS characterization of porous coatings obtained on titaniumby plasma electrolytic oxidation in electrolyte containing concentrated phosphoric acid with zinc nitrate. Adv. Mater. Sci., 17: 41-54.
    Direct Link  |  
  11. Rokosz, K., T. Hryniewicz and S. Raaen, 2017. XPS analiza nano sloja nastalog na AISI 304L SS nakon elektropoliranja pod visokim naponom (HVEP). Tehnički Vjesnik, 24: 321-326.
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  12. Rokosz, K., T. Hryniewicz and S. Raaen, 2017. SEM, EDS and XPS analysis of nanostructured coating formed on NiTi biomaterial alloy by Plasma Electrolytic Oxidation (PEO). Tehnički vjesnik, 24: 193-198.
    Direct Link  |  
  13. Rokosz, K. and T. Hryniewicz, 2017. Comparative SEM and EDX analysis of surface coatings created on niobium and titanium alloys after Plasma Electrolytic Oxidation (PEO). Teh. Vjesn. Tech. Gaz, 24: 465-472.
    Direct Link  |  
  14. Hryniewicz, T., P. Konarski and R. Rokicki, 2017. Hydrogen reduction in MEP Niobium studied by secondary ion mass spectrometry (SIMS). Metals, Vol. 7. 10.3390/met7100442.
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  15. Rokosz, K., T. Hryniewicz, Ł. Dudek, D. Matèsek, J. ValØček and M. HarničÌrovÌ, 2016. SEM and EDS analysis of surface layer formed on titanium after plasma electrolytic oxidation in H3PO4 with the addition of Cu (NO3)2. J. Nanosci. Nanotechnol., 16: 7814-7817.
    Direct Link  |  
  16. Rokosz, K., T. Hryniewicz, S. Raaen and P. Chapon, 2016. Investigation of porous coatings obtained on Ti-Nb-Zr-Sn alloy biomaterial by plasma electrolytic oxidation: Characterisation and modelling. Int. J. Adv. Manufact. Technol., 87: 3497-3512.
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  17. Rokosz, K., T. Hryniewicz, P. Chapon, S. Raaen and H.R.Z. Sandim, 2016. XPS and GDOES characterization of porous coating enriched with copper and calcium obtained on tantalum via plasma electrolytic oxidation. J. Spectrosc., Vol. 2016. 10.1155/2016/7093071.
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  18. Rokosz, K., T. Hryniewicz, F. Simon and S. Rzadkiewicz, 2016. Comparative XPS analyses of passive layers composition formed on duplex 2205 SS after standard and high-current-density electropolishing. Tehnički Vjesnik, 23: 731-735.
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  19. Rokosz, K., T. Hryniewicz, D. Matèsek, S. Raaen, J. ValØček, Ł. Dudek and M. HarničÌrovÌ, 2016. SEM, EDS and XPS analysis of the coatings obtained on titanium after plasma electrolytic oxidation in electrolytes containing copper nitrate. Materials, Vol. 9. 10.3390/ma9050318.
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  20. Rokosz, K., T. Hryniewicz and W. Malorny, 2016. Characterization of porous coatings obtained on materials by plasma electrolytic oxidation. Mater. Sci. Forum, 862: 86-95.
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  21. Rokosz, K., T. Hryniewicz and S. Raaen, 2016. Development of plasma electrolytic oxidation for improved Ti6Al4V biomaterial surface properties. Int. J. Adv. Manufact. Technol., 85: 2425-2437.
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  22. Rokosz, Krzysztof, T. Hryniewicz, W. Malorny, J. Valiček and M. HarničÌrovÌ, 2015. ANSYS analysis of stress and strain after cones plastic deformation. Technical Gazette, 22: 503-508.
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  23. Rokosz, K., T. Hryniewicz, J. Lukeš and J. Šepitka, 2015. Nanoindentation studies and modeling of surface layers on austenitic stainless steels by extreme electrochemical treatments. Surface Interface Anal., 47: 643-647.
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  24. Rokosz, K., T. Hryniewicz and S. Rzadkiewicz, 2015. XPS study of surface layer formed on AISI 316L after high-current density electropolishing. Solid State Phenomena, 227: 155-158.
    Direct Link  |  
  25. Rokosz, K., J. Lahtinen, T. Hryniewicz and S. Rzadkiewicz, 2015. XPS depth profiling analysis of passive surface layers formed on austenitic AISI 304L and AISI 316L SS after high-current-density electropolishing. Surface Coat. Technol., 276: 516-520.
    CrossRef  |  Direct Link  |  
  26. Rokosz, K., F. Simon, T. Hryniewicz and S. Rzadkiewicz, 2015. Comparative XPS analysis of passive layers composition formed on AISI 304 L SS after standard and high‐current density electropolishing. Surface Interface Anal., 47: 87-92.
    CrossRef  |  Direct Link  |  
  27. Rokicki, R., T. Hryniewicz, C. Pulletikurthi, K. Rokosz and N. Munroe, 2015. Towards a better corrosion resistance and biocompatibility improvement of nitinol medical devices. J. Mater. Eng. Perform., 24: 1634-1640.
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  28. Hryniewicz, T., K. Rokosz, R. Rokicki and F. Prima, 2015. Nanoindentation and XPS studies of Titanium TNZ alloy after electrochemical polishing in a magnetic field. Materials, 8: 205-215.
    CrossRef  |  Direct Link  |  
  29. HarničÌrovÌ, M., J. ValØček, R. GrznÌrik, T. Hryniewicz, M. KušnerovÌ, K. Rokosz and H. Tozan, 2015. Measurement and assessment of surface roughness for optimisation of laser cutting technology. Int. J. Surface Sci. Eng., 9: 264-279.
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  30. Nykiel, T. and T. Hryniewicz, 2014. Transformations of carbides during tempering of D3 tool steel. J. Mater. Eng. Perform., 23: 2050-2054.
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  31. Hryniewicz, T. and K. Rokosz, 2014. Corrosion resistance of magnetoelectropolished AISI 316L SS biomaterial. Anti-Corrosion Meth.. Mater., 61: 57-64.
    CrossRef  |  Direct Link  |  
  32. Rokosz, K., and T. Hryniewicz, 2013. XPS measurements of LDX 2101 duplex steel surface after magnetoelectropolishing. Int. J. Mater. Res., 104: 1223-1232.
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  33. KušnerovÌ, M., J. ValØček, M. HarničÌrovÌ, T. Hryniewicz and K. Rokosz et al., 2013. A proposal for simplifying the method of evaluation of uncertainties in measurement results. Measur. Sci. Rev., 13: 1-6.
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  34. Rokosz, K., T. Hryniewicz and S. Raaen, 2012. Characterization of passive film formed on AISI 316L stainless steel after magnetoelectropolishing in a broad range of polarization parameters. Steel Res. Int., 83: 910-918.
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  35. Rokicki, R. and T. Hryniewicz, 2012. Enhanced oxidation-dissolution theory of electropolishing. Trans. IMF, 90: 188-196.
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  36. Nykiel, T. and T. Hryniewicz, 2012. Effect of tempering on the structure and coercive force in the AISI D3 (217H12WF) ledeburite chromium steel. Trans. Indian Inst. Metals, 65: 37-48.
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  37. Hryniewicz, T., K. Rokosz, J. ValØček and R. Rokicki, 2012. Effect of magnetoelectropolishing on nanohardness and Young's modulus of titanium biomaterial. Mater. Lett., 83: 69-72.
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