1) low-yield-point steel damper
低屈点钢耗能器
2) composite steel plate yielding energy dissipator
组合钢板屈服耗能器
1.
Based on analyzing the advantages and shortcomings, especially the membrane effects, of X steel plate yielding energy dissipator (XSEDOR), and combined with the mechanism characteristics of Pall frictional energy dissipator, a composite steel plate yielding energy dissipator (CSEDOR) has been developed.
本文在充分利用钢板屈服耗能器性质稳定、耐久性好等优点的基础上,针对 X形钢板屈服耗能器中存在的薄膜效应,结合 Pall摩擦耗能器独特的构造特点,提出了工程可用的组合钢板屈服耗能器,并进行了这种耗能器的滞回特性试验和疲劳性能试验。
3) mixed steel-friction energy dissipator
钢屈服-摩擦复合耗能器
4) low yield point steel
低屈服点钢
1.
This paper analyzed several excellent types of low yield point steel damper,including their principles,configurations,characteristics.
低屈服点钢的力学特点是易屈服,在进入塑性状态后具有良好的滞回特性,并在弹塑性滞回变形过程中能吸收大量的能量,因而被利用来制造不同类型和构造的阻尼器。
5) yielding steel devices
钢屈服耗能装置
6) ultra low yield point steel
极低屈服点钢材
1.
This paper introduces the manufacture process and mechanics characters of ultra low yield point steel,and discusses the present practice of this kind steel in earthquake mitigation control and problems that need studying deeply in the future.
介绍了极低屈服点钢材的研制过程及其力学性能,并对极低屈服点钢材在耗能减震控制中的应用现状以及进一步需要探讨的问题进行了论述。
补充资料:点钢
1.指经淬火处理的钢铁。
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