1) Strength analysis of drill chuck
钻夹头强度分析
2) Probable analysis for gripping strength
夹持强度随机分析
3) high strength drill pipe joint
高强度钻杆接头
4) stress analysis
强度分析
1.
Using finite element method,the stress calculation and stress analysis for the location of the rectangle opening with two different configurations in the chiller were carried out.
采用有限元法,对某冷却器的矩形开孔部位在有补强和没有补强的2种结构下进行应力计算和强度分析,并在应力分析结果的基础上用线处理法对危险部位进行强度校核。
2.
In addition, the stress analysis and optimization of the container subassembly is performed.
具有结构简单、混合效果好、可大型化等优点,广泛应用于医药、化工、食品等行业,本文分析了混合机筒体的摆动轨迹,求出了筒体组件摆动功率变化规律,并对其进行了多筒体节能设计,还对混合机筒体组件进行了强度分析和优化设计。
3.
This method successfuly combines dynamic analysis with stress analysis and fatigue analysis and effectively provides foundation,for developing large-scaled vibrating screen with high reliability and performance.
该方法实现了运动分析、强度分析、疲劳分析的结合,为开发高可靠性、高性能的大型振动筛提供了依据。
5) strength analysis
强度分析
1.
A simple method for determining reference nodes for strength analysis of pumping jack;
抽油机支架强度分析参考节点的简易确定方法
2.
Design oriented strength analysis on chassis of micro vehicles;
面向设计的微型车车架强度分析
3.
Installing Structure and Strength Analysis of the Large Bus Windscreen;
大客车风窗玻璃安装结构及强度分析
6) intensity analysis
强度分析
1.
This article use the work equipment of grab as an example to introduce the application of the 3D modeling of Pro/E,the structure intensity analysis and dynamic imitation technique in the design of kinetic structure.
以挖掘机工作装置为例介绍了P ro/E软件的三维实体建模、结构强度分析和动态仿真技术,及其在具有运动功能结构设计中的应用。
2.
But the load calculation and intensity analysis are very important basic work for HAWT design.
而载荷计算和强度分析对于风力机的设计来说是非常重要的基础性工作。
3.
The Pro/E is used to the work device of excavator :3D modeling of,dynamic imitate and the structure intensity analysis in application to the design of kinetic structure.
应用Pro/E软件对挖掘机工作装置进行三维实体建模、动态仿真和结构强度分析,实现了挖掘机运动功能结构的设计。
补充资料:夹头榫
夹头榫 夹头榫约在晚唐、五代之际,高桌上就开始使用,是匠师们受到大木梁架柱头开口,中夹绰幕的启发而运用到桌案上来的。夹头榫腿子高出牙条和牙头的表面,把紧贴在案面下的长牙条嵌夹在四足土端的开口之内。由于直材(腿子)和横材(牙条)的合理嵌夹,加大了两者的接触面,搭起了牢稳的底架,再由四足顶端的榫头和案面结合,构成了结构合理的条案。长期以来,夹头榫经受了实用的考验,至今还在广泛使用。
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