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Implementation of Nanoparticles in Materials Applied in Foundry Engineering

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The ceaseless progress of nanotechnology, observed in the last years, causes that nanomaterials are more and more often applied in several fields of industry, technique and medicine. E.g. silver nanoparticles are used in biomedicine for disinfection and polymer nanoparticles allow insulin transportation in pharmacology. New generation materials containing nanoparticles are also used in the chemical industry (their participation in the commercial market equals app. 53 %). Nanomaterials are used in electronics, among others for semiconductors production (e.g. for producing nanoink Ag, which conducts electric current). Nanomaterials, due to their special properties, are also used in the foundry industry in metallurgy (e.g. metal alloys with nanocrystalline precipitates), as well as in investment casting and in moulding and core sand technologies. Nanoparticles and containing them composites are applied in several technologies including foundry practice, automotive industry, medicine, dentistry etc. it is expected that their role and market share will be successively growing.
Rocznik
Strony
205--209
Opis fizyczny
Bibliogr. 14 poz., rys., tab.
Twórcy
autor
  • AGH University of Science and Technology Academic Centre for Materials and Nanotechnology A. Mickiewicza Av. 30, 30-059 Cracow, Poland
autor
  • AGH University of Science and Technology, Faculty of Foundry Engineering, Reymonta St. 23, 30-056 Cracow, Poland
Bibliografia
  • [1] Alemán, V., Chadwick, A.V., He, J., Hess, M., Horie, K., Jones, R.G., et all. (2007). Pure and Applied Chemistry The Scientific Journal of IUPAC, Definitions of terms relating to the structure and processing of sols, gels, networks, and inorganic-organic hybrid materials (IUPAC Recommendations 2007). Pure Appl. Chem. 79, 1801-1829.
  • [2] Guo, Q., Ghadir, R. & Weige, T. (2014). Comparison of in situ and ex situ methods for synthesis of two-photon polymerization polymer nanocomposites. Polymers. 6, 2037-2050.
  • [3] Nanko, M. (2009). Definitions and categories of hybrid materials. AZojomo. 6, 1-8.
  • [4] Kickelbick, G. (2007). Introduction to hybrid materials, Synthesis, characterization and applications. Publisher: Wiley-VCH pp. 1-48. (Hybrid Materials).
  • [5] Przadka, D.M (2014). Hybrid polymers and polymer composites containing functionalised polyether oligomeric silsesquioxanes. Unpublished doctoral dissertation, Poznań. (in Polish).
  • [6] Corr, S.A. (2013). Nanoscience: volume 1: Nanostructures through Chemistry, 1 pp. 180-207.
  • [7] Kmita, A., Dańko, R., Holtzer, M., Hutera, B. & Stypuła, B. (2014). Utilisation of nanoparticles in technologies of producing castings for the needs of power engineering. Nanomaterials and Energy. 3, 53-60.
  • [8] Zhang, H., Dunphy, D.R., Jiang, X. et all. (2012). Pathway dependence of amorphous silica nanoparticle toxicity: colloidal vs pyrolytic. Journal of the American Chemical Society. 134(38), 15790-804.
  • [9] Nowicki, P. & Kmita, A. (2012) Meaning of wax surface modification in investment moulding technology. Zeszyty Studenckich Prac Naukowych ”SFEROID”. 12, 137-140. (in Polish).
  • [10] Hutera, B., Stypuła, B., Rzadkosz, S., Holtzer, M., Zych, J., Nowicki, P., Kmita, A., Starowicz, M., Hajos, M. (2014).
  • Polish patent: Method for producing forms of the melted models technology. AGH Krakow, 2014-03-11 ; Publish: 2014-11-28. (in Polish).
  • [11] Kmita, A. (2014). Modification of water glass as binder for molding sands by metal oxide nanoparticles in organic solvents. Unpublished doctoral dissertation, AGH Kraków. (in Polish).
  • [12] Garbarz, B., Marcisz, J., Burian, W. (2010). Ultra high-strength steels with nanocrystalline structure Nanotechnologia -PL, Warsaw University of Technology, 14 september 2010, Warsaw, Conference Materials. (in Polish).
  • [13] Sobczak, J. (2003). Selected aspects of nanotechnology and nanomaterials. Composites. 3(8), 387-391. (in Polish).
  • [14] http://www.felgi.pl/felga/aez/lascar.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cd8428af-61ca-4ddc-a006-7a095b5ee473
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