摘要为了在弹形设计过程中考虑炮弹弹道特性的影响,从而设计出更加合理的气动外形,采用了气动力―外弹道耦合计算方法,进行某超音速旋转弹丸气动外形设计。首先,采用四阶龙格―库塔法对三自由度外弹道过程进行了仿真;其次,推导了二次激波膨胀波计算公式,并用于求解炮弹在超音速范围内的阻力系数;再次,对气动力―外弹道耦合计算方法进行了研究;最后,在气动力―外弹道耦合计算的基础上对某防空旋转弹的气动外形进行了设计。结果表明,基于气动力—外弹道耦合计算的气动外形与静态设计的气动外形是存在差异的,且基于气动力—外弹道耦合计算的气动外形更加合理。64272
毕业论文关键字 外弹道 气动力 耦合计算 气动外形设计
毕业设计说明书(论文)外文摘要
Title A supersonic rotating projectile’s aerodynamics shape designing based on aerodynamics-exterior ballistics coupling methodology
Abstract In order to considerate the projectile ballistics characteristics to design a more reasonable aerodynamics shape during the design process,the aerodynamics-exterior ballistics coupling methodology is used to design a supersonic rotating projectile’s aerodynamics shape.First,the fourth-order Runge-Kutta method is used to simulate 3 DOF projectile exterior ballistics.Second,the second-order shock-expansion’s formula is deduced and used to calculate the projectile’s drag coefficient range at supersonic.Third, aerodynamics - exterior ballistics coupling methodology is studied. Finally,a supersonic rotating projectile’s aerodynamics shape is disigned on the basis of the aerodynamics - exterior ballistics coupling methodology. The results show that the aerodynamics shape which based on the basis of the aerodynamics - exterior ballistics coupling methodology is different from the one that based on static design,and is more reasonable.
Keywords exterior ballistics aerodynamics coupling methodology aerodynamics shape disigning
1 绪论 1
1.1 背景和意义 1
1.2 国内外研究状况 2
1.3 本文研究的主要内容 3
2 炮弹质心运动方程组 4
2.1 外弹道基本假设 4
2.2 描绘炮弹质心运动的主要参量 4
2.3 自然坐标系的炮弹质心运动方程组 5
2.4 方程组的求解问题 7
3 超音速旋转弹丸的阻力系数 10
3.1 旋成体炮弹的一般几何特性 10
3.2 波阻 12
3.3 摩阻 31
3.4 涡阻 34
4 气动力-外弹道耦合计算 基于气动力―外弹道耦合计算的某超音速旋转弹气动外形设计:http://www.youerw.com/jixie/lunwen_71339.html