Natural Fragmentation Behavior of Steel Cylinders with Variable Charge Geometries under Detonation Loading
Zheng‐xiang Shen, Huandong Huang, Zhangshi Cen, Haofeng Chen, D. Wang, Guo-rong Zhu, Shuguang Yuan
Abstract
Natural fragmentation of steel cylinders with different charge sizes is investigated, and the correlation of different cylinders is proposed. The Mott fragment distribution has some obvious shortcomings, including the difficulty of accurately determining the number of fragments. Besides, there is no unified and convenient method to describe the fragmentation behavior of shells with different structures. The results show that the fragmentation behavior of the cylinder is self-similar statistically and can be characterized by a new integrated linear formula $$C_L = a + b (C / M)$$ . Due to the existence of the end face and the charge clearance, the fragmentation performance of the cylinder is reduced to a constant value, and the effect of the wall thickness is small. The influence of the end face and charge clearance on fragmentation is investigated by 3D simulations, and the numerical results ensure good validation of the experimental data.