Synthesis of an intermetallic compound based on Ti,Si, by an explosive comp
action of elemental powders was studied with the detonation velocity as the
main experimental variable. Prior to the explosion experiment, a computer
simulation of the compaction process was conducted by using the DYNA progra
m, and the result was utilized in designing the experiment. The relative de
nsity of the compacted compound increased with the detonation velocity. To
enhance the density of the compound further, however, it was necessary to a
djust other variables associated with the can, powder, and the backup tube.
From an X-ray diffraction analysis of the explosion-compacted compound, it
was confirmed that formation of the Ti,Si, phase was complete. Although th
ere is a room for further improvement of the density and the crack resistan
ce of the compacted alloy, the present work verified that explosion synthes
is is a potentially viable method to consolidate intermetallic compounds. (
C) 1999 Elsevier Science S.A. All rights reserved.