Diameter Effect on the Propagation of Curved Detonation Waves in Micro‐Channel Charges Within a Strong Confinement

Abstract: The property of detonation wave propagation in micro‐channel charges is one of the most important research areas in the field of explosives. Based on DSD (Detonation Shock Dynamics) theory and a linear assumption for the streamline deflection angle, this paper proposes a theoretical model for curved detonation wave propagation in cylinder‐type micro‐channel charges within a strong confinement of metal tube. Further, dynamic control equations related to the detonation velocity and charge diameter are deduced, a… Show more

“…On the one hand, the experimental measurement deviation of the detonation velocity will be greater in the smaller size. The literature [25] indicated that the measuring deviation of detonation range from 3.28 % to 10.40 %. On the other hand, the Lee-Tarver does not completely capture all of energy loss mechanisms reponsible for non-ideal detonation in small diameter charge.…”

Determination of Lee‐Tarver Model Parameters of JO‐11C Explosive

“…On the one hand, the experimental measurement deviation of the detonation velocity will be greater in the smaller size. The literature [25] indicated that the measuring deviation of detonation range from 3.28 % to 10.40 %. On the other hand, the Lee-Tarver does not completely capture all of energy loss mechanisms reponsible for non-ideal detonation in small diameter charge.…”

Determination of Lee‐Tarver Model Parameters of JO‐11C Explosive

Application of inkjet printing using micro-nano CL-20-based PVA colloidal suspension with desensitization to MEMS-based pyrotechnics

Interpol review of detection and characterization of explosives and explosives residues 2016-2019