Profil

Imię i naziwsko

dr inż. Paweł Hyjek

Telefon: 662 78 81                                            

Pokój nr: 2N                                            

Mail: pawel.hyjek@up.krakow.pl

 

Działalność naukowa:

  • inżynieria materiałowa, fazy międzymetaliczne, kompozyty, materiały do pracy w podwyższonych temperaturach
  • materiały dla przemysłu motoryzacyjnego, lotniczego i energetycznego,
  • technologie wytwarzania, odlewnictwo, metalurgia proszków,
  • właściwości mechaniczne i użytkowe

Wybrane publikacje:

  1. Hyjek, I. Sulima, Methodology of tribological tests of composites reinforced with ceramic particles, The Book of Abstracts, 9th International Conference Engineering, Computer Science and Education, 2016, Metallurgy and Foundry Commission Polish Academy of Sciences, Krakow and Institute of Technology, Pedagogical University of Krakow
  2. Sulima, R. Kowalik, P. Hyjek, The corrosion properties of TiB2/steel composites produced by spark plasma sintering, The Book of Abstracts, 9th International Conference Engineering, Computer Science and Education, 2016, Metallurgy and Foundry Commission Polish Academy of Sciences, Krakow and Institute of Technology, Pedagogical University of Krakow
  3. Hyjek, I. Sulima, L. Jaworska, Characteristics and development of nickel-aluminum alloys (Al = 20-23 wt%) by sintering process, The Book of Abstracts, 9th International Conference Engineering, Computer Science and Education, 2016, Metallurgy and Foundry Commission Polish Academy of Sciences, Krakow and Institute of Technology, Pedagogical University of Krakow
  4. Hyjek, I. Sulima, L. Jaworska, The influence of sintering parameters on the microstructure and properties of the NiAl/TiB2 composite, ICCS19 : 19th International Conference on Composite Structures : [Porto, Portugal], 5–8 September, 2016 : proceedings / ed. by Antonio J. M. Ferreira. — [Portugal : s. n.], 2016. — (Structural and Computational Mechanics Book Series ; ISSN 2421-2822). — ISBN: 978-88-7488-977-8. — p. 187, 212 pages
  5. Hyjek, I. Sulima, P. Pałka, L. Jaworska, Production of titanium diboride-reinforced NiAl/Ni3Al materials by SPS process, 25th International Conference on Metallurgy and Materials, METAL 2016, Conference proceedings, 25 – 27 May 2016, Brno, Czech Republic, EU (accepted for publication)
  6. Sulima, R. Kowalik, P. Hyjek, The corrosion and mechanical properties of spark plasma sintered composites reinforced with titanium diboride, Journal of Alloys and Compounds, Vol. 688, Part A, 15 December 2016, pp. 1195-1205
  7. Sulima, L. Jaworska, P. Pałka, P. Hyjek, P. Kurtyka, Influence of sintering temperature and CrB2 addition on properties of titanium diboride produced by spark plasma sintering, Composites Theory and Practice, 2016, R. 16, nr 1, pp. 30-36
  8. Sulima., P. Putyra, P. Hyjek, T. Tokarski, Effect of SPS parameters on densification and properties of steel matrix composites, Advanced Powder Technology, Vol.26, 2015, No.4, pp. 1152-1161
  9. Hyjek, I. Sulima, P. Malczewski, Mechanical properties and corrosion resistance of cast NiAl alloys with Ti addition, Metallurgy and Foundry Engineering – Vol.41, 2015, No.1, pp. 29–44
  10. Hyjek, I. Sulima, Microstructure and mechanical properties of Ni-Al-Ti-B alloy, Ores And Non-Ferrous Metals, 60, 5(2015), pp. 211-217
  11. Sulima, Hyjek, T. Tokarski, Influence of annealing conditions on the properties and microstructure of steel composites, Metallurgy and Foundry Engineering – Vol. 40, 2014, No. 1, pp. 33–43
  12. I.Sulima, P.Hyjek, P.Figiel:”Influence of sintering techniques on the properties of metal-ceramic composites”, Innovative Manufacturing Technology 2013, IZTW Krakow 2013, s.129-140.
  13. P. Hyjek, I.Sulima, P.Figiel:”NiAl composite reinforced with TiB2 ceramic particles”, Innovative Manufacturing Technology 2013, IZTW Krakow 2013, s.31-42.
  14. P. Hyjek, I. Sulima, P. Malczewski, L. Jaworska, Application of HP-HT method in the manufacture of NiAl phase, Journal of Achievements in Materials and Manufacturing Engineering, 55/2 (2012), s.700-705.
  15. I.Sulima, P.Figiel, L.Jaworska, P.Hyjek:”The properties of  AISI 316L stainless steel reinforced with TiB2 ceramics sintered by the HT-HP process”, Inżynieria Materiałowa, nr 1 (179) 2011, s.40-43.
  16. P. Hyjek, I. Sulima, S. Wierzbiński,Ductilization of Ni3Al by alloying with boron and zirconium, Archives of Materials Science and Engineering”, 40 (nr 2) 2009, s.69-74
  17. Sulima I., P. Klimczyk, P.Hyjek „The influence of the sintering conditions on the properties the  stainless steel reinforced with TiB2 ceramics”, Archives of Materials Science and Engineering,  39 (nr 2) 2009, s. 103-106
  18. B.Płonka, J.Senderski, P.Hyjek, S.Wierzbiński: AlCuAg alloy hot plastic consolidated from powders-structure and mechanical properties. Monography: „PROBLEMS OF MODERN TECHNIQUES IN ASPECT OF ENGINEERING AND EDUCATION”, Cracow 2006, s.297-302. 
  19. E.Fraś, A.Janas, P.Kurtyka, P.Hyjek, S.Wierzbiński: Kompozyty na osnowie faz międzymetalicznych-wytwarzanie i właściwości. Hutnik, Nr.7-8, 2004, s. 342-347.
  20. P. Kurtyka, P. Hyjek, S. Wierzbiński: Charakterystyki mechaniczne odkształconych próbek w testach ściskania, rozciągania oraz jednoosiowego ściskania z dwuosiowym rozciąganiem. Hutnik, Nr. 7-8, 2004, s. 376-380.
  21. E.Fraś, A.Janas, P.Kurtyka, P.Hyjek, S.Wierzbiński: Właściwości mechaniczne kompozytów „in situ” na osnowie fazy międzymetalicznej Ni3Al wzmacnianych cząstkami TiC i TiB2. Inżynieria materiałowa Nr 5(142), IX-X 2004.
  22. P.Kurtyka, P.Hyjek, S.Wierzbiñski: Selected mechanical, tribology and corrosion properties of cast Ni3Al/TiC and Ni3Al/TiB2 composites. Proc. Int. Conference Advanced Metallic Materials 2003, Smolenice Castle, Nov.5-7.2003, pp. 166-172.
  23. S.Wierzbiński, P. Kurtyka, P.Hyjek: Strukturalne aspekty właściwości mechanicznych stopów na osnowie fazy Ni3Al. Rudy i Metale, R48, nr3, s.121-124, 2003.

 

Realizacja: Internet Arts
Ta strona używa ciasteczek (cookies), dzięki którym nasz serwis może działać lepiej. Dowiedz się więcej Rozumiem