Expansion of an ideally plastic cylindrical shell in response to detonation products

“…Numerical simulations of detonation propagation in this ED showed, in particular, that the diameter of 100 mm is close to the minimum diameter at which the pressure at the interface between the sand and the ED wall would not exceed the elastic limit of the cylinder material (1.3-1.5 GPa) for the most powerful charge (D = 4.13 km/sec) detonated in the ED. It was also found that in this case, the thickness of the sand layer (33 mm) was sufficient for the maximum expansion of the charge shells (up to a certain radius R max ) by their detonation products to be limited by the value R max ≈ (1.5-1.8)R 0 [5], at which crack formation, at least, just begins. That is, it could be believed that the following experimental condition important for correct interpretation of the results was satisfied: the initial mass of the transformation products stayed in a confined volume in the ED for as long time as possible.…”

Energy release of mixed explosives during propagation of a nonideal detonation under conditions similar to the operation conditions of a blasthole charge

“…Numerical simulations of detonation propagation in this ED showed, in particular, that the diameter of 100 mm is close to the minimum diameter at which the pressure at the interface between the sand and the ED wall would not exceed the elastic limit of the cylinder material (1.3-1.5 GPa) for the most powerful charge (D = 4.13 km/sec) detonated in the ED. It was also found that in this case, the thickness of the sand layer (33 mm) was sufficient for the maximum expansion of the charge shells (up to a certain radius R max ) by their detonation products to be limited by the value R max ≈ (1.5-1.8)R 0 [5], at which crack formation, at least, just begins. That is, it could be believed that the following experimental condition important for correct interpretation of the results was satisfied: the initial mass of the transformation products stayed in a confined volume in the ED for as long time as possible.…”

Energy release of mixed explosives during propagation of a nonideal detonation under conditions similar to the operation conditions of a blasthole charge

Study of the dispersal of a shell with allowance for fracture and the escape of detonation products between fragments

Behavior of a rigidly plastic cylindrical shell exposed to internal pressure