1) component of external store
外挂物部件
1.
Experimental investigation on aerodynamic characteristics of component of external store of aircraft;
飞机外挂物部件气动特性的试验研究
2) hanging-parts
悬挂部件
1.
This paper presents the basic theory and characteristics as well as the application prospect of EBM,the whole process of titanium alloy hanging-parts rapidly produced by EBM technology is described also.
EBM技术是1990年代中期发展起来的现代先进制造技术,文中介绍了EBM技术的基本原理、特点、应用前景以及悬挂部件钛合金的快速制造工艺过程。
3) external software
外挂软件
1.
The function of electric reading room management can be improved especially by using external software interface electbakup.
txt为接口外挂软件的方法可以改善电子阅览室的管理功能。
4) Plug-in
外挂组件
5) external stores
外挂物
1.
Intelligent development of air-borne external stores management system requires the system to have the ability of intelligent decision.
机载外挂物管理系统智能化发展要求系统智能决策能力,由于决策因素的复杂性,一般决策方法在应用中受到较大限制。
2.
The adjustment and the regeneration of the flow field unstructured mesh as well as the finite element solutions for the Euler equations in the transient process of the separation of external stores from an aircraft at a predetermined downward translation and rotation are investigated.
研究飞机外挂物在按给定轨迹下沉旋转的离机过渡过程中 ,流场非结构网格的调整和再生成方法以及过渡过程欧拉方程有限元数值解法。
3.
External stores force test on aircraft,six low drag bombs of “∵” configurations and external stores combination was conducted simultaneously with eight balances in FL 24 transonic wind tunnel.
结果表明,各外挂物受机翼下洗流影响,其法向力、俯仰力矩特性与其单个外挂物在自由流中呈现的特性大不相同;翼下挂低阻弹及其挂架受侧洗流影响较大,零侧滑角时产生了横向气动特性;处于机翼复杂流场下的外挂物,除滚转力矩量值不大外,侧向力和偏航力矩量值分别与法向力和俯仰力矩量值相当。
6) store
[英][stɔ:(r)] [美][stɔr]
外挂物
1.
Numerical simulations of the cavity with a store;
数值模拟有外挂物的空腔流动
2.
2D unstructured dynamic mesh research on store separation;
外挂物投放问题的二维非结构动态网格技术研究
3.
External store under wing is the necessary equipment for modern fighter, but due to the reason of nonlinear, there is not yet a good dynamic calculation model.
翼下外挂物是现代作战飞机的必不可少的装备 ,由于其非线性环节多 ,一般的有限元模型不能很好地反映它的动力特性。
补充资料:将UG里的一个装配部件输出成单个部件文件
法一:
- 关闭(turn off)FileàOptions->Load Options下"Partial Loading "选项
- 打开装配部件
- 选择File->Export->Part
- 在"Part Specification"下选择"new"
- 选择"Specify Part",指定输出部件文件名称及位置
- 将"Object Selection Scope"设定为"All Objects"
- 选择"Class Selection->Select All"高亮所有对象
- 按"OK"
该种方法特点:每一个部件的特征都会汇集在新部件的MNT里。可以方便编辑。
法二:
- 闭(turn off)File->Options->Load Options下"Partial Loading "选项
- 打开装配部件
- Application->Assembly
- Assemblies->Components->Create New,给出想要输出的部件文件名及路径。
- 如下图1,在ANT上双击新产生的部件文件,使其成为工作部件。
- Assemblies->WAVE Geometry Linker,将设置改为"Body",选择所有组件的体。
- 将"Create Non-associative"开关设为"On",见下图2
- 将产生的部件设成显示部件,仅保存刚产生的新部件,不保存旧的装配部件。
 图1 |  图2 |
该种方法特点:每一个部件在新部件的MNT里只会显示一个link的特征。没有相应特征可以编辑。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条