35mm冲压推进弹丸气动及结构设计
本文研究的主要是战斗飞行马赫数为4的35mm冲压推进弹丸的气动特性以及结构设计。综合运用几何建模、数值流动仿真,数据分析等研究方法,对冲压推进弹丸的结构组成以及弹丸气动特性进行了研究。
本文根据流动数值仿真结果确定了符合设计要求的进气道设计方案,并且进气道总压恢复系数达到了18%,还确定了喷管的尺寸,并且冲压发动机的推力校核也符合要求。最后还根据资料进行了冲压增程弹丸各个部件的设计以及装配。22393
关键词 固体燃料冲压发动机 气动特性 结构 增程弹丸
毕业论文设计说明书(论文)外文摘要
Title Projectile Aerodynamic And Structural Design of 35mm Ramjet Propulsion
Abstract
Solid fuel ramjet is a relatively new momentum device,it has the advantages of simple structure, high specific impulse and many other advantages.After combining with the extended range projectile technology,it can not only improve the projectile range can also improve the projectile terminal velocity, and then improve the hit probability or increase the damage ability.This paper mainly study characteristics and structural design of 35mm ramjet projectile aerodynamic which fight speed is 4 Mather.The integrated use of geometric modeling, numerical flow simulation, research methods of data analysis to study the projectile aerodynamic characteristics on ramjet projectile.According to the results of numerical simulation were established to meet the design requirements of inlet and the inlet total pressure recovery coefficient reached 18%.This paper also identifies the nozzle size and thrust, ramjet engine is also in line with the requirements of verification.Finally, according to the data for the design of ramjet assisted range projectiles of each parts and assembly.
Keywords Solid fuel ramjet, Aerodynamic characteristics, Structure, Extended range projectile
目 次
1 绪论 1
1.1 引言 1
1.2 固体燃料冲压推进增程弹丸原理 1
1.3 固体燃料冲压推进增程弹丸结构组成 1
1.4 固体燃料冲压推进增程弹丸的研究进展 2
1.5 固体燃料冲压增程弹丸的关键技术 4
1.6 本文的研究工作 5
2 固体燃料冲压推进增程弹丸的初步设计 6
2.1 研究手段 6
2.2 弹丸头部设计 11
2.3 进气道设计 12
3 固体燃料冲压发动机的推力校核与喷管设计 19
4 固体燃料冲压增程弹丸的结构设计与装配 24
结 论 28
致 谢 29
参考文献 30
1 绪论
1.1 引言
随着科学技术的发展,新技术条件下的现代战争已经发生了翻天覆地的变化,远非以前的人与人直接的正面冲突。现代战争的发展趋势是远程精确打击,因此传统的陆军打击已经不满足现代战争的需求,作为陆军火力的传统支柱—火炮,也得紧跟现代发展趋势。因此,增加火炮射程就成了研究的重点之一。传统的弹丸射程增加方法主要有增加弹丸出膛速度、底排增程、火箭助推增程等,但传统方法增程率不高,这就要求开发更新的技术来提高火炮射程以满足日益增加的现代战争需求。随着固体燃料冲压发动机(SFRJ)技术取得长足的进步,冲压发动机在弹丸上的运用也成为了各国研究的重点。