In order to probe into the single ignition characteristics of mixed solid and liquid fuel, optical and electrical experinments on unconfined volume dispersion and single ignition of few dosage of ternary fuel mixture ...In order to probe into the single ignition characteristics of mixed solid and liquid fuel, optical and electrical experinments on unconfined volume dispersion and single ignition of few dosage of ternary fuel mixture are successfully done. Experimental results show that cloud detonation is distinguished from explosion of trinitrotoluene charge. The single ignition process of mixed fuel containing aluminum powder(Al), propylene oxide (PO) and explosive (TNT) can be divided into four stages, the overpressure within its explosion field first increases, then decays with increase of distance. Explosion effects can be enhanced with adding proper trinitrotoluene into fuel mixture, the optimized ratio is m (Al) : m (PO): m (TNT) - 55:35: 10. The overpressure of binary mixed fuel containing Al and TNT decays like trinitrotoluene charge with increase of distance, but its value is higher than the trinitrotoluene charge's in the same mass at longer distance. The continual action time of plus overpressure during cloud detonation reaches magnitude of 10 ms and is about 100 times longer than the trinitrotoluene charge' s.展开更多
文摘In order to probe into the single ignition characteristics of mixed solid and liquid fuel, optical and electrical experinments on unconfined volume dispersion and single ignition of few dosage of ternary fuel mixture are successfully done. Experimental results show that cloud detonation is distinguished from explosion of trinitrotoluene charge. The single ignition process of mixed fuel containing aluminum powder(Al), propylene oxide (PO) and explosive (TNT) can be divided into four stages, the overpressure within its explosion field first increases, then decays with increase of distance. Explosion effects can be enhanced with adding proper trinitrotoluene into fuel mixture, the optimized ratio is m (Al) : m (PO): m (TNT) - 55:35: 10. The overpressure of binary mixed fuel containing Al and TNT decays like trinitrotoluene charge with increase of distance, but its value is higher than the trinitrotoluene charge's in the same mass at longer distance. The continual action time of plus overpressure during cloud detonation reaches magnitude of 10 ms and is about 100 times longer than the trinitrotoluene charge' s.
