Titanium and its alloys are known to undergo self-sustained combustion in aerodynamic environments. Energy in several forms, i.e. radiation, frictional heating, or aerodynamic heating can be sufficient to bring the matter to a condition where self-sustained combustion can occur. The phenomenon has been of interest in the laser effects-vulnerability area, and also in aircraft propulsion systems, where titanium alloys are extensively used.
Titanium Cmbustion Research Program and User's Manual for Deck CCD 1152-0.0
1979
108 pages
Report
Keine Angabe
Englisch
Nonferrous Metals & Alloys , Combustion & Ignition , Titanium , Titanium alloys , Combustion , Ignition , Gas turbines , Computer programs , Mathematical models , Laser damage , Aerodynamic heating , Friction , Laser beams , Aircraft , Propulsion systems , Aerospace environment , Radiation , Finite difference theory , Computerized simulation , Manuals , Self sustained combustion , Titanium alloy 8Al 1Mo 1V
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