1) Molecular rotation model in phase transition
分子转动惯量
2) Moment of inertia
转动惯量
1.
The application of moment of inertia real time compensation in the rewinder web tension control;
转动惯量实时补偿在复卷机纸幅张力控制中的应用
2.
Measuring method and error analysis on moment of inertia of complex shaped components;
复杂形状构件转动惯量的测量方法及误差分析
3) rotary inertia
转动惯量
1.
Eigenfrequencies of beams considering the effects of shear distortion and rotary inertia;
考虑剪切变形和转动惯量影响的梁的固有频率计算
2.
The effect of shear deformation and rotary inertia are considered in the paper.
文中考虑了剪切变形和转动惯量的影响。
3.
Based on the principle of compound pendulum,the measurement method and corresponding equipment for the centroidal deviation and the rotary inertia of rocket projectile were described.
基于复摆原理,阐述了箭弹的质偏和转动惯量的测量方法及装置,推导出了质偏和转动惯量的计算公式。
4) rotational inertia
转动惯量
1.
Study of calculation method for rotational inertia of a uniform rod to random rotation shaft;
均匀细杆对任意轴转动惯量的计算方法
2.
Study on the error and approximate expressions of the rotational inertia based the theory of momentum;
基于动量矩原理的转动惯量近似表达及分析
3.
A new measuring method of rigid - body rotational inertia——compound pendulum method;
刚体转动惯量的一种新型测量法——复摆法
5) rotating inertia
转动惯量
1.
The error analysis through the experiment of rotating inertia with a tri-linear pendulum;
由三线摆测转动惯量谈误差分析
2.
Research on relation between friction torque and mass m_0 for rotating inertia apparatus;
转动惯量仪摩擦力矩与质量m_0关系研究
3.
A method for calculating the rotating inertia of vibration structure was recommendation.
本文介绍了一种自动计算振动结构的转动惯量的方法。
6) Inertia moment
转动惯量
1.
Calculation methods for inertia moment of steam turbogenerator rotor using load rejection test;
甩负荷试验转子转动惯量计算方法研究
2.
Some current methods for determining the inertia moment of moving parts of engine are discussed and one new method-accelerating-decelerating method is proposed.
讨论了当前一些确定转动惯量的方法,提出了一种新的发动机转动惯量确定方法———加速惰转法。
3.
By way of overcoming mechanism structure factors seriously affecting on performance of opto-electronic tracker servo systems, the relationship between servo system performance and servo mechanism structure factors that consist of inertia moment,structure resonance frequency and friction moment is analyzed.
为克服机械结构因素对光电跟踪伺服系统性能的不良影响,分析了转动惯量、结构谐振频率、摩擦力矩等伺服机械结构因素与伺服系统性能的关系,包括分析转动惯量与伺服系统性能的关系、结构谐振频率与伺服系统性能的关系、摩擦力矩与伺服系统性能的关系,探讨了消除或减小机械谐振的措施。
补充资料:水轮发电机转动惯量
水轮发电机转动惯量
rotational inertia of hydrogenerator
shullun fodlonl一zhuondong guonl旧ng水轮发电机转动惯.(rotational inertia ofhydrogenerator)水枪发电机转动惯盆是发电机转动部分的重tG与其惯性直径D平方的乘积,用GDZ表示,也称为转动部分的飞轮力矩。 转动惯量表明电力系统出现大干扰时,水轮发电机组转动部分保持原来运动状态的能力,所以对电力系统的暂态过程和动稳定有很大影响。转动惯t对水轮机调节保证计算也有很大影响,转动惯t大,机组甩负荷后的转速上升率如保持一定值,则可允许较大的压力上升率,从而可以减小引水钢管直径或允许增加钢管长度,甚至不设调压井.但增大转动惯t将增加发电机重量和造价,也延长了机组的起动时间。 当水轮发电机基本尺寸确定后,转动惯量GDZ值可按下列经验公式计算 GDZ=kD户·”1.式中D为定子铁芯内径,m‘l:为定子铁芯长度,m;h为经验系数,一般可按表选取。 经脸系傲裹┌────────┬────┬────┬────┐│机纽转迫(r/成.) │<100 │100~375 │>375 │├────────┼────┼────┼────┤│经玻系狱《k) │5 .2~5.5│5.1~5。3│4.5~5.0 │└────────┴────┴────┴────┘ 大容量低转速水轮发电机组的转动惯t最大已达450000 tf·mZ(4410 kN·mZ)
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