1. Investigation of the laws of ignition of titanium powders
- Author
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V. I. Rozenband, V. A. Griva, and E. V. Chernenko
- Subjects
Chemistry ,General Chemical Engineering ,Metallurgy ,Inorganic chemistry ,General Physics and Astronomy ,Energy Engineering and Power Technology ,chemistry.chemical_element ,Autoignition temperature ,General Chemistry ,law.invention ,Volumetric flow rate ,Ignition system ,Titanium powder ,Condensed Matter::Materials Science ,Minimum ignition energy ,Fuel Technology ,Physics::Plasma Physics ,law ,Heat transfer ,Metal powder ,Condensed Matter::Strongly Correlated Electrons ,Physics::Chemical Physics ,Titanium - Abstract
The study of the ignition characteristics of powders of the refractory transition metals is of scientific and practical importance. It is of interest to investigate the effect on the ignition process of such parameters as the composition of the gaseous oxidizer, the heat transfer conditions, the specimen dimensions, and the grade of metal powder. The article is devoted to the question of the ignition of transition metal powders, with titanium serving as an example. On the basis of the experimental data, several conclusions may be drawn. First, it was found that nitrogen has a chemical effect on the ignition of titanium powder in air only in the presence of an oxygen deficit. Second, a gas flow has a significant effect on the critical ignition temperature, reducing it at low and increasing it at high gas flow rates. It was further found that the titanium powder ignition process can develop in the autoignition and external ignition regimes. Generally good agreement was found between the theoretical and experimental values of the critical ignition temperature for titanium powder.
- Published
- 1982
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