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The effect of filler content on the viscosity of polymer composites

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Języki publikacji
EN
Abstrakty
EN
Currently, research on materials containing magnetic magnetic particles give opportunity to the prepare and study of composites with interesting magnetic features. One possibility for producing such materials is the use of fillers with magnetic properties. The final properties of such composites depend mainly on characteristic polymer matrix. However, the addition of magnetic materials arose use of new technologies. Such builders include the magnetic ferrites. Metal hexaferrites represent well researched group of magnetic materials (Mallick, 1993). Their high values of magnetocrystalline anisotropy and saturation magnetization enable widespread application of these materials as permanent magnets. Low price and excellent chemical stability with suitable magnetic characteristics classified ferrites to one of the most important magnetic materials (Rigbi, 1988). The experimental material used was a composite formed by combining a polymer matrix (linear polyethylene HDPE), and the hard-magnetic strontium ferrite labeled FD 160S as a filler. Composites with different filler contents were prepared from the starting materials. The dependence of viscosity on the content of ferrite filler was determined by rheological measurements.
Wydawca
Rocznik
Strony
293--298
Opis fizyczny
Bibliogr. 13 poz., rys., tab.
Twórcy
  • University of Žilina Slovakia
  • University of Žilina Slovakia
  • University of Žilina Slovakia
Bibliografia
  • 1.Bunsell, A.R. Fibre Reinforcements for Composite Materials, Elsevier, Oxford 1998.
  • 2.Farrar, D.F., Rose, J. 2001. Rheological properties of PMMA bone cements during curing, Biomaterials, vol. 22, no. 22, p. 3005-3013.
  • 3.Chval, Z., Raz, K., Sedlacek, F. 2020. Design of injection mold from plastic material, Key Engineering Materials, vol. 847 p. 75.
  • 4.Lokander, M., Reitberger, T., Stenberg, B. 2004. Polymer degradation and Stability, 86, p. 467-471.
  • 5.Malkin, A., Isayev, A. 2005. Rheology: Concepts, Methods and Applications, Torinto: ChemTec Publishing.
  • 6.Mallick, P.K. 1993. Fiber-Reinforced Composites, Materials, manufacturing and Design, New York: Marcel Dekker, Inc.
  • 7.Mark, J.E. 2007. Physical Properties of Polymer Handbook, 2nd Ed., Springer.
  • 8. Mezger, G.T. 2006. The rheology handbook, 2nd Ed., Hannover: Vincentz Network.
  • 9. Mleziva, J., Šňupárek, J. 2000. Polymery, výroba, struktura, vlastnosti a použití, Praha.
  • 10. Polak, R., Zahalka, M. 2018. Influence of gate position during the injection moulding process. Annals of DAAAM and Proceedings of the International DAAAM Symposium, p. 0659.
  • 11.Rigibi, Z. et al. 1988. Journal of Magnetism and Magnetic Materials, 37.
  • 12.Valášek, P., Mϋller, M. 2012. Polymeric particle composites with filler saturated matrix. Manufacturig and technology, vol. 12, no. 13, p. 272-276.
  • 13.Wollny, K., Will, S. 2003. Comparison of Polyethylene melts using Frequency Sweeps. Anton Paar Germany, GmbH.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-32a320bf-23ad-4f2f-9235-a5f4a2501e87
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