The optimal delay time and initiating direction of a deformable warhead is a precondition for promotion of the warhead s lethal effect.

An experimental model of a deformable warhead was designed.

In order to obtain the integral performance of the deformable warhead,the processes of fragment dispersion of the eccentric initiation warhead,the uniform warhead and the deformable warhead with the uniform caliber and charge type are simulated using the code LS-DYNA.

A special research was done on spread process of main charge of the evolvable aimed warhead(EAW).

It s an important tendency for anti-craft missiles to adopt aimed warhead to enhance the execution,but the application of aimed warhead has put new requirements before the detonation control system.

Based on the analysis of the national and international development of aimed warhead and the conclusion of its developing direction, this paper establishes a model of missile meeting with target, then gives the analytic expression of optimum detonating delay time, and finally analyzes the result of imitation.

The model of an aimable warhead is analysed and calculated.

The fuzzy uncertainty of the safety and detonation control system of an aimable warhead is analyzed,and the fuzzy recognition approach of environment information is explored according to the fuzzy characteristics of the system.

On the basis of this, the paper also discusses the problem how to obtain the optimum detonating azimuth of directional warhead and makes an analysis of th.

According to the directional warhead s tactical and technical requirements,a directional detecting fusz that can discern target around the missile is introduced, to improve the efficiency of the coordination of fuse with warhead.

A two-circuit parallel safety system for the safety of the missile\'s directional warhead is designed to guarantee the warhead at the secure state in storage and the service processing.

A detonation deformable warhead,can be with concentrated lethal effects on target is designed.