Abstract
1. Original fcc interlayers are disrupted with high-speed shock-wave loading for lamellar two-phase alloy VT8. 2. Within the limits of a single colony, slip and twinning propagate unhindered across all of the α-platelets, and they are stopped at high-angle boundaries (colony boundaries). 3. With an increase in shock loading rate from 60 to 600 m/sec intensification of twinning is observed. 4. Formation of unstable packing defects, decorated mainly with hydrogen, along planes {1010}α and hydrides in β-phase with a shock loading rate of 600m/sec have been noted. 5. Electron-microscopic studies have not revealed formation of ω-phase with shock loading for the test alloy.
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