1) Detumble
速率阻尼
2) damping speed
阻尼速度
1.
This error will reduce the damping speed and induce a closed orbit distortion.
结果表明,束测误差将减低阻尼效果,增大为达到一定的阻尼速度所需阻尼系统功率,并导致闭轨畸变。
3) damping ratio
阻尼率
1.
The influences of damping ratio,slamming rate and coefficient of correlation on the reliability were studied,and the reliabilities of v.
最后通过算例分析了舰船结构的阻尼率、砰击率及相关系数对可靠性的影响,并计算分析了舰船结构各种失效模式的可靠性。
4) damping rate
阻尼率
1.
Analysis of damping rate and out-of-resonance degree of compensation network;
补偿电网阻尼率及脱谐度的分析
2.
Study on damping rate and out-of-resonance degree of power compensation network;
补偿电网阻尼率及脱谐度问题研究
3.
Applying Thermal Renormalization Group equations to 4 theory with spontaneously breaking symmetry, we investigate the critical behavior of the damping rate of the plasmon with finite momentum at the phase transition temperature of restori.
将热重整化群方程应用到对称性自发破缺的4理论 ,我们考察了具有有限动量的等离子体激元阻尼率在自发破缺对称性恢复的相变温度下的临界行为 。
5) damp rate
阻尼率
1.
In order to solve the problems existing in compensation network, such as poor earthing and three-phase unbalanced voltages, the author analyses the damp rate and out-of-resonance degree and presents a rational formula to tune the two parameters.
阻尼率和脱谐度是补偿电网的两个重要参数。
2.
The paper analyses some influence of power compensation network operation characteristics due to the changes of damp rate and out-of-resonance in some aspects, such as neutral-to-ground voltage, unbalanced degree on the 3-phase voltages and component of residual .
随着自动调谐式消弧线圈的广泛应用 ,许多配电网变成了补偿电网 ,而阻尼率和脱谐度是补偿电网的 2个重要参数。
3.
The paper analyzes the influence of damp rate and out-of-resonance degree on running characteristics of power compensation network in aspects of neutral-point displacement voltage, unbalanced degree of three-phase voltage, power component and idle component of residual current, etc.
本文从中性点位移电压、三相电压不平衡度以及残流的有功分量、无功分量等方面,分析了阻尼率和脱谐度对补偿电网运行特性的影响,给出了合理配置阻尼率和脱谐度的公式,认为采用非线性电阻将增大残流的有功分量,不利于电弧的熄灭;在保证残流小于规程允许范围内的前提下,适当增大脱谐度,可改善三相电压不平衡度,有利于补偿电网的运行。
6) power damping
功率阻尼
补充资料:单位阻尼能
分子式:
CAS号:
性质:变形周期中损失的能量与材料体积之比。亦称之为单位阻尼能。高分子材料具有黏弹性,发生变形时不是完全的弹性变形,而伴随着发生塑性变形。在发生塑性变形时,由于分子间或晶面间的滑移,摩擦生热等耗去了能量,因此不能使原加的能量完全以形变能贮存,并在恢复过程中释放。失去的那部分能量就属于能量损耗。正确了解这一点,就可以根据不同用途来进行选材,也对新材料的研究起指导作用。
CAS号:
性质:变形周期中损失的能量与材料体积之比。亦称之为单位阻尼能。高分子材料具有黏弹性,发生变形时不是完全的弹性变形,而伴随着发生塑性变形。在发生塑性变形时,由于分子间或晶面间的滑移,摩擦生热等耗去了能量,因此不能使原加的能量完全以形变能贮存,并在恢复过程中释放。失去的那部分能量就属于能量损耗。正确了解这一点,就可以根据不同用途来进行选材,也对新材料的研究起指导作用。
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