Abstract
The group impact of space charge jets (SCJs) on a composite target consisting of corundum and fiber glass-reinforced plastic layers has been studied. It is established that, under certain spatial and temporal conditions, the collective action of SCJs enhances the efficiency of brittle material resistance to high-speed jet penetration. These features are manifested for a subsonic character of penetration and confirm the proposed mechanism of the radial action of a crater formed in a high-strength brittle material on the SCJ propagation.
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