1) units in series
部件串联
1.
Cost analysis of the Geo/G/1 repairable system with units in series;
部件串联的Geo/G/1可修排队系统的费用分析
3) cascading event
串联事件
4) serial PV module
串联组件
1.
Based on theoretical deduction,the subsection function was applied to accurately describe partially shadowed serial PV module current and power output characteristics.
以太阳能电池的电流方程和电路的基本理论为基础,对带有旁路二极管的串联组件在被部分遮挡的情况下的输出过程进行了细致的物理分析,并将其划分为旁路二极管导通和阻断两个阶段,从理论上推导出可以运用分段函数准确描述被部分遮挡的串联光伏组件电流和功率输出特性。
5) tandem shaped charge warhead
串联战斗部
1.
To improve the tandem shaped charge warhead(TSCW) penetrating ability against explosive reactive armor(ERA) and to decontaminate the ERA s influence on main jet,the numerical simulation and experimental studies are applied in front explosively formed projectile(EFP) penetrating through ERA.
为了提高串联战斗部侵彻爆炸反应装甲的能力,消除爆炸反应装甲对主射流的影响,对串联战斗部前级爆炸成型弹丸(EFP)侵彻爆炸反应装甲进行了数值模拟和试验研究。
2.
In this paper, the concept and the state-of-the-art of research development of the explosive reactive armor (ERA) and the tandem shaped charge warhead (TSCW) were introduced briefly first.
本文介绍了爆炸式反应装甲和串联战斗部的概念和国内外研究现状。
6) tandem warhead
串联战斗部
1.
Design method based on cylindrical hole of perforation concrete for precursory shaped charge of tandem warhead is presented in this paper.
文中给出了串联战斗部前后级匹配设计方法。
2.
A three-dimensional computational study of blast effect on traveling projectile of tandem warhead has been performed using finite element programme of LS-DYNA.
利用有限元软件对破爆型串联战斗部第一级装药爆轰对第二级随进子弹影响结果进行了数值模拟。
3.
To judge explosive stability and estimate speed reducing of the following projectile of tandem warhead under the blast of the precursory charge,a theoretical analysis model of the one-dimension shock wave spreading is established.
为了研究串联战斗部前级爆轰场作用下,后级随进子弹炸药安全性及其速度降的大小,建立了一维冲击波传播理论分析模型,由图解法得到了后级装药的初始压力。
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