1) magneticsurface density
表面磁密
2) Surface compressed
表面压密
3) sealing surface
密封表面
1.
The contact model of sealing surfaces of the flange and the metallic gasket was established on the basis of the modified M-B model,and the relationship between the contact area and the compressive stress is obtained.
在修正的M-B接触模型基础上,考虑法兰与金属垫片接触属于静接触,接触界面摩擦作用对其不产生影响,建立法兰与金属垫片密封表面接触模型,得到了无量纲真实接触面积与压紧应力的关系。
2.
Accordingly,a contact model of sealing surfaces of flange and metallic gasket was established and the relation between the contact area and the compressive stress was also examined.
考虑法兰与金属垫片接触属于静接触,接触界面摩擦作用对其不产生影响,在修正的M-B接触模型基础上,建立法兰与金属垫片密封表面接触模型,得到了无量纲真实接触面积与压紧应力的关系。
4) precise surface
精密表面
1.
Along with developing modern technology, the demands for precise surface quality are also higher and higher.
因此精密表面疵病的自动检测一直是期待解决的问题。
2.
With the development of modern technology, the demands for precise surface quality are also higher and higher.
因此精密表面疵病的自动检测和分类一直是期待解决的问题。
6) hunting case watch
密面表
补充资料:磁表面记录介质
分子式:
分子量:
CAS号:
性质:磁记录材料大都是由磁层及其支持体——带基(盘基)所组成。磁层是记录实体。一切信号都记录在这一表层上,故又称其为磁表面记录介质。
分子量:
CAS号:
性质:磁记录材料大都是由磁层及其支持体——带基(盘基)所组成。磁层是记录实体。一切信号都记录在这一表层上,故又称其为磁表面记录介质。
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