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Aluminosilcate glass cenospheres as a component of cast magnesium matrix composites

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The main characteristic of aluminosilicate glass cenospheres and their possible use as a component of magnesium matrix composites were presented. The results revealed that particular parts of cenospheres differ insignificantly from each other and it depends on which power plant cenospheres come from. The characteristic of cenospheres concerned their structure and phase composition and dimensions such as: wall thickness and size of pores occurring in walls, depending on cenospheres origin. Thickness of cenospheres walls and pore size were measured by using ImageJ computer software. The structure of aluminosilicate glass cenospheres and their phase composition have been investigated by scanning electron microscopy and X-ray diffraction (XRD). The possibility of cenospheres utilization in the fabrication of magnesium matrix composites was presented on the example of AZ91 magnesium alloy composite with fly ash cenospheres. Composite was fabricated by pressure infiltration method.
Rocznik
Strony
109--112
Opis fizyczny
Bibliogr. 15 poz., rys., tab., wykr.
Twórcy
autor
  • Institute of Materials Engineering, Częstochowa University of Technology, Al. Armii Krajowej 19, 42-200 Częstochowa, Poland
autor
  • Institute of Materials Engineering, Częstochowa University of Technology, Al. Armii Krajowej 19, 42-200 Częstochowa, Poland
  • Institute of Materials Engineering, Częstochowa University of Technology, Al. Armii Krajowej 19, 42-200 Częstochowa, Poland
Bibliografia
  • [1] Vassilev V. S., Menendez R., Diaz-Somoano M., Martinez-Tarazona R. M.: Phase-mineral and chemical composition of coal fly ashes as a basis for their multicomponent utilization. 2. Characterization of ceramic cenosphere ans salt concentrates, Fuel, 2004, Vol. 83, p. 585-603.
  • [2] Anshits N. N., Vereshchagina T. A., Bayukov O. A., Salanov A. N., Anshits A. G.: The nature of nanoparticles of crystalline phases in cenospheres and morphology of their shells, Glass Physics and Chemistry, 2005, Vol. 31, No. 3, p. 306-315.
  • [3] Wang A., Zhang Ch., Sun W.: Fly ash effects: I. The morphological effect of fly ash, Cement and Concrete Research, 2003, Vol. 33, p. 2023–2029.
  • [4] Kutchko B. G., Kim A. K.: Fly ash characterization by SEM–EDS, Fuel, 2006, Vol. 85, p. 2537–2544.
  • [5] Sobczak J., Wojciechowski A., Boyko L., Drenchev P., Darłak P., Dudek P.: Materiały wysokoporowate, Wydawnictwo Instytutu Odlewnictwa, Kraków 2005.
  • [6] Pichór W.: Kierunki wykorzystania w budownictwie mikrosfer powstających jako uboczny produkt spalania węgla kamiennego, Materiały Ceramiczne, 2005, Vol. 4, p. 160-165.
  • [7] Bhattacharyya S., Donahoe R. J., Patel D.: Experimental study of chemical treatment of coal fly ash to reduce the mobility of priority trace elements, Fuel, 2009, Vol. 88, p. 1173–1184.
  • [8] Vassilev V. S., Menendez R., Alvarez D., Diaz-Somoano M., Martinez-Tarazona R. M.: Phase-mineral and chemical composition of coal fly ashes as a basis for their multicomponent utilization. 1. Characterization of feed coals and fly ashes, Fuel, 2003, Vol. 82, p. 1793-1811.
  • [9] Matsunaga T., Kim J.K., Hardcastle S., Rohatgi P.K.: Crystallinity and selected properties of fly ash particles, Materials Science Engineering A, 2002, Vol. 325, p. 333–343.
  • [10] Rohatgi P. K., Daoud A., Schultz B. F., Puri T.: Microstructure and mechanical behavior of die casting AZ91D-Fly ash cenosphere composites, Composites Part A, 2009, Vol. 40, p. 883–896.
  • [11] Daoud A., Abou El-khair M. T., Abdel-Aziz M., Rohatgi P. K.: Fabrication, microstructure and compressive behavior of ZC63 Mg–microballoon foam composites, Composites Science and Technology, 2007, Vol. 67, p. 1842–1853.
  • [12] Huang Z., Yu S., Li M.: Microstructures and compressive properties of AZ91D/fly-ash cenospheres composites, Trans. Nonferrous Metals Society China, 2010, Vol. 20, p.458-462.
  • [13] Rohatgi P. K., Guo R. Q., Iksan H., Borchelt E. J., Asthana R.: Pressure infiltration technique for synthesis of aluminum-fly ash particulate composite, Materials Science and Engineering A, 1998, Vol. 244, p. 22-30.
  • [14] Kamieniak J., Żydek A., Braszczyńska-Malik K. N.: Możliwości wytwarzania kompozytów na osnowie stopu magnezu z mikrosferami glinokrzemianowymi, X Międzynarodowa Konferencja Naukowa „Nowe Technologie i Osiągnięcia w Metalurgii i Inżynierii Materiałowej”, Częstochowa 2009, s. 194-197.
  • [15] Abramoff M.D., Magelhaes P.J., Ram S.J.: Image Processing with ImageJ, Biophotonics International, 2004, Vol. 11, 36-42.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-94d6f984-78d4-4f22-b02c-3abe2830b59e
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