- Tytuł:
-
Spaleniowa synteza nanoproszków wolframu, tantalu i molibdenu
Combustion synthesis of tungsten, tantalum, and molybdenum nanopowders - Autorzy:
-
Cudziło, S.
Czugała, M. - Powiązania:
- https://bibliotekanauki.pl/articles/172471.pdf
- Data publikacji:
- 2012
- Wydawca:
- Polskie Towarzystwo Chemiczne
- Tematy:
-
synteza spaleniowa
SACR
nanoproszki metali
combustion synthesis
metal nanopowders - Opis:
- Refractory metal nanopowders have recently been of interest as starting materials for preparation of heavy alloys with exceptionally good mechanical properties resulting from their structure homogeneity at a nanoscopic level. In the light of recently published papers, the combustion synthesis seems to be a promising technique for the large-scale production of metal nanopowders. In this method, the self-sustaining internal combustion of energetic composites is used to produce useful materials. The energy released in the combustion wave, propagating through a pressed sample of the green mixture, causes a rapid increase in temperature which in turns enables the processes and reactions with high activation barriers to proceed. Unbalanced conditions and high time and space variability of temperature in combustion wave are conducive to the creation of compounds and structures that are difficult to produce using other methods. Thanks to this combustion synthesis there is a source of simple and complex metal oxides, ceramic materials, metals and intermetallic compounds as well as various composites of the substances, both in powdery and compact forms. The product form and its microstructure depends on the synthesis conditions, especially on the size and morphology of substrate particles, reactants ratio, the initial density, the presence and concentration of additives, temperature and external pressure [1–6]. Metal powders are typically produced by reduction of relevant oxides. Aluminum, magnesium, zinc, calcium, zirconium, titanium, silicon, carbon and their mixtures or compounds are used as reducers [11]. If the combustion temperature is excessively high (above 2000°C) coarse metal powders are usually produced. The initially formed crystallites are irregular in shape, they melt on the surface and agglomerate giving even bigger particles. To overcome this problem, alkali metal halide is included as an additional reactant in the system. The additive melts in the combustion wave, reduces the combustion temperature, aids in transportation of the main reactant species, which positively affects the size and shape of combustion product particles. In addition, molten salt prevents grain growth by forming a protective layer around the particles. The current paper reviews recently published works (mainly by H.H. Nersisyan et al. [7, 12–23]) on molten salt assisted combustion synthesis (SACR ) of tungsten, tantalum and molybdenum nanopowders. A detailed description of the synthesis method including its specific features, the experimental procedure, combustion parameters and macro-kinetic aspects of chemical reactions in the combustion wave, and characterization of the metal nanopowders are presented.
- Źródło:
-
Wiadomości Chemiczne; 2012, 66, 3-4; 249-272
0043-5104
2300-0295 - Pojawia się w:
- Wiadomości Chemiczne
- Dostawca treści:
- Biblioteka Nauki