论文信息 - Dimensional scaling for impact cratering and perforation

Dimensional scaling for impact cratering and perforation

The issue of generic scaling laws able to adequately predict (within better than 20%) cratering in semi-infinite targets and perforations through finite thickness targets was revisited. The approach used was to apply physical logic for hydrodynamics in a consistent manner able to account for chunky-body impacts such that the only variables needed are those directly related to known material properties for both the impactor and target. The analyses were compared and verified versus CTH hydrodynamic code calculations and existing experimental data. Comparisons with previous scaling laws were also performed to identify which (if any) were good for generic purposes. This paper is a short synopsis of the full report [1] available through the NASA Langley Research Center, LDEF Science Office.

Alan J. Watts | Dale Atkinson | D. Atkinson | A. Watts

[1] G. Chadwick,et al. Thermal stresses in fibre reinforced composites , 1969 .

[2] C. A. Wingate,et al. Models of high velocity impact phenomena , 1992 .

[3] D. Sawle. Hypervelocity impact in thin sheets and semi- infinite targets at 15km/sec , 1970 .

[4] N. Petch,et al. The Cleavage Strength of Polycrystals , 1953 .

[5] A. Tate,et al. A theory for the deceleration of long rods after impact , 1967 .

[6] M. Cintala,et al. Dimensionally scaled penetration experiments to extract projectile sizes from space exposed surfaces , 1993 .

[7] Keith A. Holsapple,et al. The scaling of impact phenomena , 1987 .

[8] James S. Wilbeck,et al. Review of hypervelocity penetration theories , 1987 .

[9] Eric L. Christiansen,et al. Highy oblique impacts into thick and thin targets , 1993 .

[10] J. A. M. McDonnell. Proceedings of the workshop on hypervelocity impacts in space , 1992 .

[11] B. G. Cour-Palais,et al. Hypervelocity impact investigations and meteoroid shielding experience related to Apollo and Skylab , 1985 .