The delay arming process of initiating explosive ( IE ) brakes for fuse is complex and hard to be verified. A numerical simulation model of IE brakes was established based on the arbitrary La- grange-Euler method. T...The delay arming process of initiating explosive ( IE ) brakes for fuse is complex and hard to be verified. A numerical simulation model of IE brakes was established based on the arbitrary La- grange-Euler method. The model included the structure, the air filed, etc. The simulation boundary conditions were defined, including the contacts, blasting parameters of the explosive and the fluid- solid coupling interface. The simulation results show that the shear pin of the chosen IE can be cut off. When the piston needs to move 0.8 cm, the time set to the delay arming of the IE brakes model is about 40μS. The maximum displacement of the piston is 1. 17 cm. The model provides basis for parameters design and further improvement of IE brakes.展开更多
This paper puts forward the magneto-rheological fluid used in the fuze safe and arming system,realizing the time delay,ensuring the muzzle safety distance.The delay arming time model of a centrifugal MRF delay arming ...This paper puts forward the magneto-rheological fluid used in the fuze safe and arming system,realizing the time delay,ensuring the muzzle safety distance.The delay arming time model of a centrifugal MRF delay arming mechanism of fuze was established based on hydrodynamics formulae,reasonable hypothesis,speciality of MRF and fuze environmental parameters.The delay arming time formula was deduced.The model illustrates the relationship between delay arming time and projectile rotating speed,and that between diameter of discharge hole and viscosity of magneto-rheological fluid.According to the analysis,a new fuze delay arming device using MRF was proposed,which can be used in medium and large caliber fuze.展开更多
基金Supported by the National Natural Science Foundation of China(11372047)
文摘The delay arming process of initiating explosive ( IE ) brakes for fuse is complex and hard to be verified. A numerical simulation model of IE brakes was established based on the arbitrary La- grange-Euler method. The model included the structure, the air filed, etc. The simulation boundary conditions were defined, including the contacts, blasting parameters of the explosive and the fluid- solid coupling interface. The simulation results show that the shear pin of the chosen IE can be cut off. When the piston needs to move 0.8 cm, the time set to the delay arming of the IE brakes model is about 40μS. The maximum displacement of the piston is 1. 17 cm. The model provides basis for parameters design and further improvement of IE brakes.
文摘This paper puts forward the magneto-rheological fluid used in the fuze safe and arming system,realizing the time delay,ensuring the muzzle safety distance.The delay arming time model of a centrifugal MRF delay arming mechanism of fuze was established based on hydrodynamics formulae,reasonable hypothesis,speciality of MRF and fuze environmental parameters.The delay arming time formula was deduced.The model illustrates the relationship between delay arming time and projectile rotating speed,and that between diameter of discharge hole and viscosity of magneto-rheological fluid.According to the analysis,a new fuze delay arming device using MRF was proposed,which can be used in medium and large caliber fuze.