摘要本文针对空间战争的软杀伤技术,设计一种空间脉冲喷涂反卫星战斗部。通过建立喷涂物的空间定向运动模型,初步赋予相关参数,进行经典内弹道计算。同时引入膨胀波发射技术,与膨胀波内弹道模型进行对比,寻找减小后座的途径。介绍真空环境下液体所发生的物理现象,并基于ANSYS软件对其关键喷涂过程中,不同形状的喷嘴和不同粘度的液体外流场进行动力学有限元数值模拟,总结相关结论,最终为喷涂式软杀伤反卫星弹药的工程研制提供帮助。47981
关键词 空间污染 内弹道 喷嘴仿真
毕业论文设计说明书外文摘要
Title Design for space pulse spraying Anti-Satellite Weapon warhead
Abstract
Aim at soft-damaged technology of space war, this paper designed a space pulse spraying ASAT warhead. By establishing the model of spatial orientation of spray painting, giving the relevant parameters for the classical interior ballistic calculation. At the same time, the expansion of rarefaction wave technique is introduced, comparing with the expansion of rarefaction wave internal ballistic model, to find ways to reduce the recoil. Introduce the occurrence of liquid physical phenomenon in vacuum environment, and based on ANSYS software, simulate the key process—the outflow field of nozzles with different shapes and liquids of different viscosity with dynamic finite element method, summarize the relevant conclusions and provide the help for the engineering development of the spraying soft kill anti-satellite ammunition.
Keywords Space pollution Interior ballistic Nozzle simulation.
目 录
1 绪论 1
1.1.1 反卫星武器国内外研究现状 3
1.1.2 喷涂技术国内外研究现状 3
1.2 本篇论文内容介绍 4
2 喷涂载荷总体方案设计 5
2.1 喷涂载荷关键技术解决 5
2.1.1 液体发射技术 5
2.1.2 喷嘴喷射技术 6
2.2 喷涂形面控制 7
3 内弹道计算 9
3.1 经典内弹道计算 9
3.1.1 内弹道装填参量的确定 9
3.1.2 内弹道微分方程推导 10
3.1.3 编制内弹道方程组程序并计算 13
3.1.4 活塞部位有限元校核 16
3.2 膨胀波内弹道模型 16
3.2.1 膨胀波模型基本假设 16
3.2.2 膨胀波发射相关理论 17
4 喷涂环境介绍 20
4.1 仿真环境与空间环境的差别——闪蒸现象 20
4.2 拟选用材料——硅油 22
5 雾化喷嘴Fluent仿真计算 24
5.1 直流喷嘴喷射仿真