Title :
Study on the Effect and the Direction Accuracy of Active Electromagnetic Protection System
Author :
Li, Shizhong ; Gui, Yingchun ; Deng, Qibin ; Chengda Da ; Liu, Peizhu ; Zhang, Pengxiang ; Li, Jun
Author_Institution :
Beijing Inst. of Special Electromech. Technol., Beijing
Abstract :
Armor vehicles have traditionally been protected by the armor based on steel. This gives rise to extremely heavy structures which produce logistic problems due to the need to transport the vehicle to a battle field. Many kinds of technique have been developed to meet this change. A new concept - active electromagnetic protection system (AEMPS) has the advantages of short trigger delay time, good controllability, repetitive uniformity and convenient logistic service. So it might be the trend of the future active protection system. At present, there is not much research on the effect of AEMPS .In order to better understand the effect of the AEMPS, a numerical model to simulate the interception process was established . and the numerical simulation was performed with the finite element software LS-DYNA3D using pole armor piercing projectile as example for its heavy threaten on armor, good results have been obtained. After being intercepted, pole armor piercing projectile´s warhead turns blunt and inflected, its velocity slows down and the ability to penetrate the same armor decreases about 20~25 percent. Good practical effect of AEMPS is based on intercepting target successfully. The AEMPS should have high accuracy of interception due to the high velocity of the pole armor piercing projectile. In order to evaluate the launching direction accuracy, a new launching apparatus was made and the accuracy tests were carried out in the laboratory. The experimental results showed that the direction accuracy of launched interceptor is less than 0.5 degree. So it can intercept target successfully in the range of five meters.
Keywords :
armour; electromagnetic forces; finite element analysis; projectiles; LS-DYNA3D; active electromagnetic protection system; finite element software; good controllability; logistic service; pole armor piercing projectile; repetitive uniformity; short trigger delay time; size 5 m; Controllability; Delay effects; Finite element methods; Logistics; Numerical models; Numerical simulation; Projectiles; Protection; Steel; Vehicles;
Conference_Titel :
Electromagnetic Launch Technology, 2008 14th Symposium on
Conference_Location :
Victoria, BC
Print_ISBN :
978-1-4244-1832-9
Electronic_ISBN :
978-1-4244-1833-6
DOI :
10.1109/ELT.2008.82