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aspect of pressure changes , Tribologia (in press), 2017. [6] Frycz, M., The ferro-oils viscosity depended simultaneously on the temperature and magnetic oil particles concentration η=η (T, ϕ) – part I , Journal of KONES Powertrain and Transport, Vol. 23, No. 2, pp.113-120, 2016. [7] Frycz, M., Anioł, P., Impact of magnetic particles concentration in ferro-oil on its magnetic susceptibility coefficient χ , Journal of KONES Powertrain and Transport, Vol. 21, No. 3, pp. 139-144, 2014. [8] Frycz, M., Czaban, A., Models of viscosity characteristics η=η(B) of ferro

-150, 2017. [7] Frycz, M., Miszczak, A., Longitudinal magnetic field in the journal sliding bearing gap , Tribologia. Teoria i Praktyka, Nr 6 (240), pp. 77-85, 2011. [8] Frycz, M., Wpływ stężenia cząstek magnetycznych w ferrooleju na parametry przepływowe i eksploatacyjne poprzecznych łożysk ślizgowych , Wydział Mechaniczny UMG, 2018. [9] Frycz, M., Impact of temperature on magnetic susceptibility coefficient χ of ferro-oils with different concentration of magnetic particles , Tribologia, Teoria i Praktyka, Vol. 5, pp. 21-30, 2016. [10] Frycz, M., Czaban, A., Models of

ultralow magnetic susceptibility, NATURE, Scientific Reports 6, Article number: 24414 (2016). [12] K. Mediaswanti et al. , A Review on Bioactive Porous Metallic Biomaterials, J Biomim Biomater Tissue Eng 18(1) (2013) 2-8. [15] G. Ryan, A. Pandit, D. Panagiotis-Apatsidis, Fabrication methods of porous metals for use in orthopaedic applications, Biomaterials 27 (2006) 2651–2670. [16] Montasser Dewidar, Influence of processing parameters and sintering atmosphere on the mechanical properties and microstructure of porous 316L stainless steel for possible hard