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Synthesis of Iron Aluminates and a New Modification of Alumina at Impact of Explosive

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Synthesis of new high-strength superdispersed materials by use of detonation and shock waves is a developing branch of manufacture. Diamond, metal oxides, nitrides, and many other substances are produced and find industrial application. The objective of current work was the method of synthesis of iron aluminates and a new modification of alumina. For the synthesis initiation of explosion of aluminized composite explosive by impact was firstly used.
Rocznik
Strony
37--44
Opis fizyczny
Bibliogr. 13 poz.
Twórcy
  • Mendeleev University of Chemical Technology 125047, Miusskaya Sq. 9, Moscow, Russia, sinelopa83@mail.ru
Bibliografia
  • [1] Tsvigunov A.N., Hotin V.G., Krasikov A.S., Svetlov B.S., Synthesis of New Modification of Alumina with Structure Spinel at Shock Wave Impact on Gibbsite, Glass and ceramic, 1999, (8), 16-18.
  • [2] Tsvigunov A.N., Hotin V.G., Krasikov A.S., Svetlov B.S., Shock Waves Synthesis of Alumina From Zincates and Aluminum, ibid., 2001, (4), 23.
  • [3] Hotin V.G., Tsvigunov A.N., Krasikov A.S., Results of X-ray Diffraction the Phase of Explosion Products of Explosive Mixtures Containing Aluminum, in: Successes of chemistry in special chemistry and chemical technology, Part. 2, Moscow 2005, pp. 197-201.
  • [4] Guse W., Saalfelds H.X., X-ray Characterization and Structure Refinement of a New Cubic Alumina Phase (σ-A2O3) with Spinel-Type Structure, N. Jb. Miner. Mn. H. 5, 1990, pp. 217-226.
  • [5] Hotin V.G., Tsvigunov A.N., Krasikov A.S., Pusyreva T.B., Shock Waves Synthesis of FeAl2O4, Glass and ceramic, 1998, (9), 17-18.
  • [6] Afanasev G.T., Bobolev V.K., Initiation of the solid explosives by impact (Russ.), Nauka, Moscow 1968, p. 147.
  • [7] Sumin A.I., Gamezo V.N., Kondrikov B.N., Raikova V.M., Shock and Detonation General Kinetics and Thermodynamics in Reactive Systems Computer Package, Trans. of the 11-th (Int) Detonation Symposium, Snowmass, Colorado, USA, August 31-September 4, 1998.
  • [8] Hoffmann A., Fischer W.A., Formation of the Spinel FeO·Al2O3 and Its Solid Solutions with Fe3O4 and Al2O3, Z. Phys. Chem. Bd. 7, 1956, (1-2), 80-90.
  • [9] Yagnik C.M., Mathur H.B., A Mössbauer and X-Ray Diffraction Study on the Cation Distribution in FeAl2O4, J. Phys. C. Sol. State Phys., 1968, 1(2), 469–472.
  • [10] Woodland A.B., Wood B.J., The Breakdown of Hercynite at Low of O2, Amer. Mineral., 1990, 75(11-12), 1342-1348.
  • [11] Tsvigunov A.N., Hotin V.G., Krasikov A.S., Svetlov B.S., Shock Waves Synthesis of not Stoichiometrical Spinel ZnAl2O4 and Ganite, Glass and ceramic (Russ.), 2001, (10), 24-25.
  • [12] Guse W., Saalfelds H.X., X-ray Characterization and Structure Refinement of a New Cubic Alumina Phase (σ-A2O3) with Spinel-Type Structure, N. Jb. Miner. Mn. H. 5, 1990, 217-226.
  • [13] Chi-Tang Li, Transformation Mechanism between High-Quartz and Keatite Phases of LiAlSi2O6 Composition, Acta Cryst. V. B., 1971, 27, 1132-1140.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT1-0035-0028
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