分析验证了粘滞阻尼器对该类结构内力、变形及舒适度的控制作用。
And the effectiveness of vicious dampers for structure vibration control on structural internal force, deformation and comfort problem is confirmed.
结果表明,在过冷液相区内能够进行快速粘滞流动变形、粘滞成型和粘滞连接;
It is shown that the rapid viscous flow deformation, forming, welding can be carried out in the supercooled liquid region.
在研究的实验条件范围内,合金的蠕变变形机制为低温高应力下的位错粘滞滑移控制和高温低应力下的位错攀移控制;
The creep mechanisms are dislocation glide at lower testing temperatures in higher stress levels and dislocation climb at higher temperatures in lower stress levels.
还研究了粘滞阻尼器的设置对结构在内力、变形、加速度及能量方面的控制效果。
The control effects of vicious dampers on inter force, deformation, acceleration and energy dissipation of the structure were also studied.
还研究了粘滞阻尼器的设置对结构在内力、变形、加速度及能量方面的控制效果。
The vicious dampers' control effect on inter force, deformation, acceleration and energy dissipation of the structure was also studied.
还研究了粘滞阻尼器的设置对结构在内力、变形、加速度及能量方面的控制效果。
The vicious dampers' control effect on inter force, deformation, acceleration and energy dissipation of the structure was also studied.
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