电磁阻尼器的力矩特性直接影响它对能量的吸收和耗散。
The torque-speed characteristic of an electromagnetic damper affects the energy absorption and dissipation.
在地震来临时,阻尼器最大限度吸收和消耗了地震对建筑结构的冲击能量,大大缓解了地震对建筑结构造成的冲击和破坏。
When earthquake is approaching, dampers furthest absorb and consume impact energy of earthquake to building structure, alleviating greatly impact and destruction of earthquake to building structure.
由于被吸收而强度减低叫做阻尼,而由于这一原因其强度减小的波叫做阻尼波。
The decrease in intensity due to absorption is called damping and a wave whose intensity decreases for this reason is called a damped wave.
实验旨在研究气相爆轰波在阻尼管道(管壁上衬有吸收材料)中传播时的衰减现象。
The present experimental investigation attempts to understand the attenuation of detonation waves propagating through an absorbing material lining section.
材料本身吸收的微波能量就是材料内部所有带电粒子克服阻尼做功之和。
The energy absorbed by materials is the work that the charged particles do to overcome the ambient damp force.
本文研究的电磁阻尼器是一种特殊结构的空心杯发电机,它主要用于对能量的吸收和耗散,达到减振消能的目的,是具有很高单位耗能的能量吸收元件。
The electromagnetic damper studied in this paper belongs to a special kind of coreless generator, which is used for the energy absorption and dissipation in order to weaken vibration.
快电子的有效温度较好地满足共振吸收的温度定标律是由于反射激光加速与共振吸收机制均是通过朗道阻尼或波破对电子进行加速的。
The effective temperature of fast electrons is consistent with the temperature scaling of the resonance absorption, which is due to Landau damping or wave breaking.
为使结构耐震设计更趋经济,建筑结构必须有效地吸收并消释大震输入能,采用三角形钢板之加劲阻尼装置可增加结构劲度和迟滞阻尼。
In order to construct cost-effective building structures in regions of high seismic risk, building structures must be able to absorb and dissipate large amount of energy during a severe earthquake.
考虑具有介质阻尼及非线性粘弹性本构关系的梁方程,证明了它的有界吸收集和有限维惯性流形的存在性,并由此得到在一定的条件下所给偏微分方程等价于一常微分方程组的初值问题。
The equations of nonlinear viscouselastic beam are considered, The existence of absorbing set and inertial manifolds for the system are obtained, and from which we get that the P D E.
研究了泡沫金属的机械阻尼性能,表明泡沫金属是一种具有高能量吸收特性的轻质高阻尼材料,其阻尼特征表现为与应变振幅密切相关,而与应变频率无显著关系的非线性内耗。
The mechanical damping properties of metallic foams has been studied in the paper. It is found that metallic foams is a light high-damping material with great energy absorbing characteristics.
结果表明:在不考虑激光线宽及消相碰撞时,探测场的吸收随时间在零吸收附近作类似于阻尼减幅振荡,系统可实现无反转放大;
It is shown that the time-dependent probe absorption is oscillatorily damped to its steady state and transient amplification without inversion can be realized;
多孔镁具有更高的阻尼本领、更平坦的压缩应力-应变平台,在冲击能吸收结构中应用应更具有优势。
The porous Mg exhibits a higher damping capacity, a longer and lower stress plateau than porous Al, suggesting more superior energy absorption and damping properties.
多孔镁具有更高的阻尼本领、更平坦的压缩应力-应变平台,在冲击能吸收结构中应用应更具有优势。
The porous Mg exhibits a higher damping capacity, a longer and lower stress plateau than porous Al, suggesting more superior energy absorption and damping properties.
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