1) mechanical parts
机械部件
1.
The process of designing for the testing system of the mechanical parts of general equipment is introduced.
针对现有修后试验设备的不足,以柔性装卡、自动控制为设计思想,介绍了通用装备机械部件试验系统的设计过程。
2.
So the designing of the related mechanical parts which cost less energy and make less damage has high benefit in economy and society.
根据以上理论,使用Visual C++研制了圆盘颗粒模型的二维离散元法计算仿真软件,并将其与本课题组所研制的AutoCAD边界建模程序结合,构建了一套集设计与性能分析评价于一体的通用的数字化的机械部件设计与分析软件。
2) Mechanical part
机械部件
1.
Numerical control transformation of mechanical parts of common lathes the necessity and contents of the transformation is introduced briefly and great importance is attached to the transformation of main mechanical parts of common lathes.
简要介绍普通车床数控改造的必要性,数控改造的内容,重点探讨车床主要机械部件的改造。
3) machine parts
机械零部件
1.
With considering light-weight and safety of intensity,a concept was given about conservative and no-conservative fussy reliability design of machine parts,which the most universal method about reliability design was dichotomy and the core of dichotomy is the reliability of parts calculated accurately.
从轻量化和强度安全性的角度出发,给出了机械零部件的保守与非保守模糊可靠度设计概念,指出了可靠性设计最普遍的方法是二分法及二分法的核心是精确计算可靠度。
4) mechanical components
机械零部件
1.
Based on the stochastic perturbation and fourth moment techniques,the theory of reliability design is combined with sensitivity analysis to develop a mathematical model for reliability-based sensitivity of mechanical components.
应用随机摄动技术和四阶矩技术,将可靠性设计理论与灵敏度分析方法相结合,建立了机械零部件可靠性灵敏度设计模型。
2.
A simple and practical method of lifetime prediction for mechanical components during the forepart of products research and development--Weibull is introduced,and the key of lifetime prediction is how to confirm shape parameter,position parameter and scale parameter is pointed out.
介绍了一种在研制早期阶段对机械零部件进行寿命预计的简单实用方法--三参数威布尔法,指出寿命预计的关键是形状参数、位置参数及尺度参数的确定。
5) A mechanical part or module.
机械部件或组件
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