1) tension monitoring
张力监测
2) conductor tension monitoring
导线张力监测
3) pulling monitor
张拉监测
1.
According to introduce string vault structure,combining with engineering survey,it expatiates technical difficulty and importance of this project,discusses pre-stressed pulling route and process of net shell looking for shape,analyzes pulling method and pulling monitoring content,indicates that string vault structure is the best choice of stadium steel structure engineering.
通过对弦支穹顶结构的介绍,结合工程概况,阐述了该工程的技术难点和重点,探讨了预应力张拉路线及网壳找形过程,对张拉方法及张拉监测内容进行了分析,指出弦支穹顶结构是体育场馆钢结构工程的最佳选择。
5) tension measuring
张力检测
1.
The tension measured by a tension measuring roller is transmitted to a computer and is displayed.
由张力检测辊测得的纤维带张力送至计算机,计算机显示张力大小;同时根据纤维带的张力控制张力调节辊上下移动,使张力基本保持恒定,从保证碳纤维强力性能的稳定。
6) Tension measurement
张力测量
1.
The differential structure of the Hall-type tension measurement model was studied, Deflection parameter and Angle parameter micro-tension measurement model are based on the linear Hall element and the cantilever.
对差分结构的霍尔式张力测量模型进行了研究,基于线性霍尔元件和悬臂梁设计了挠度参变量和转角参变量两种微张力测量模型。
补充资料:拜耳张力
分子式:
CAS号:
性质:又称拜耳张力。化合物分子内部,由于键角屈挠(偏离正常键角)所产生的张力。键角的屈挠越大,角张力越大,分子内能越高,结构越不稳定。
CAS号:
性质:又称拜耳张力。化合物分子内部,由于键角屈挠(偏离正常键角)所产生的张力。键角的屈挠越大,角张力越大,分子内能越高,结构越不稳定。
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