The number-size distribution of fragments arising during fragmentation of a steel projectile upon its normal impact on a thin bumper with a velocity of 2.5-7.3 km/sec is obtained.High-porous sheets made of fine copper powder are used to reduce the number of large fragments of the bumper in the debris cloud behind the bumper.As the impact pressure increases from 30 to 160 GPa,the character of fragmentation of the steel sphere changes from irregular fragmentation near the projectile-failure threshold to more uniform fragmentation with the maximum impact velocity.The main result of the experiment is the observation that the density distribution of the number of fragments increases and does not tend to zero as the size of fragments decreases.The data are analyzed within the framework of the Grady and Gilvarry exponential distributions.
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机译:获得了钢弹丸在正常撞击薄保险杠时以2.5-7.3 km / sec的速度撞击时碎裂过程中产生的碎片的数量分布,并使用由细铜粉制成的高孔板减少了数量当撞击压力从30 GPa增加到160 GPa时,钢球的碎裂特征从靠近弹丸破坏阈值的不规则碎裂变为最大的更均匀碎裂。实验的主要结果是观察到碎片数的密度分布增加,并且随着碎片大小的减小而不会趋于零。在Grady和Gilvarry指数分布的框架内分析数据。
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