1·Fatigue damage is the energy dissipation process.
疲劳损伤过程耗散了能量。
2·Fatigue of material is a process of energy dissipation.
材料的疲劳是能量耗散过程。
3·The shear action is characterized by viscous flowing energy dissipation.
用黏性流动能量耗散表示剪切作用。
4·In this paper, a new structure with local energy dissipation is put forward.
本文提出了高层建筑结构的一种局部消能减震新体系。
5·To improve the efficiency of laser is a key aspect to lower energy dissipation.
提高雷射的效率,减少能量的散失是重要的课题。
6·The energy dissipation is related to the internal damage of rock to some extent.
岩石能量耗散在一定程度上反映了岩石内部的损伤破坏情况。
7·The scheme of energy dissipation and seepage flow analysis are studied in the paper.
引水枢纽消能方案布置,以及闸坝基渗流分析是本文重点研究的问题。
8·Above behaviors of friction noise were explained with the energy dissipation principle.
提出了用能量耗散原理来解释上述现象。
9·The intrinsic relations between energy dissipation, energy release and failure of rock are discussed.
讨论了岩石破坏与能量耗散、能量释放的内在联系。
10·Dynamical problems about energy dissipation in a finite multi-degree of freedom Hamiltonian system are studied.
研究了有限的多自由度耦合哈密顿系统能量耗散过程的动力学问题。
1·Energy dissipation braced frames are used to design a commercial mid tall building which located at strong earthquake zone in the Xingyi City, Jiangsu Province.
采用耗能支撑钢筋混凝土框架结构设计了地处地震高烈度区的江苏新沂市某商业楼。
2·And the aseismatic capacity of shear resistant strength, deform, energy dissipation, ductility and rigidity degeneration is also researched.
研究扁梁框架节点的抗剪承载力、变形、耗能、延性和刚度退化等抗震性能。
3·The ends of reinforced concrete beam in seismic frame are critical positions that ensure ductility and plastic energy dissipation capability of the structure.
钢筋混凝土抗震框架梁的端部是保证结构抗震延性和塑性耗能能力的关键部位。
4·This paper sets up a simplified physical model for viscoelastic pipe, on which a investigation on energy dissipation mechanism of it is presented and some new conclusions are given.
建立了挠性胶管阻尼耗能的简化模型。以此为基础分析了挠性胶管的阻尼耗能的一般规律,并得出了一些新的结论。
5·A seismic design procedure for energy dissipation systems is proposed by using the capacity spectrum method in combination with Chinese seismic design code.
结合我国抗震设计规范,提出被动耗能减震结构基于能力谱法的抗震设计方法。