1.
Research and Measurement of Iron Losses in Motor Fed by SPWM Waveform
SPWM供电时电机铁心损耗的研究与测试
2.
Effect of Control Strategies on Iron Losses of Bearingless Switched Reluctance Motors
控制策略对无轴承开关磁阻电机铁心损耗的影响
3.
The energy loses encountered in ferromagnetic cores are essentially of two groups: hysteresis losses and eddy-current losses .
铁心中的能耗分为两部分:磁滞损耗和涡流损耗。
4.
Discussion of Reducing the No-Load Loss and the Noise for Step-Laminated Core Transformer
“阶梯叠”铁心变压器降低空载损耗和噪声的探讨
5.
Formula Derivation and Verification of Calculating Core Additional Loss Factor
计算铁心附加损耗系数的公式推导及其验证
6.
Finite Element Analysis of thc Distributions of Flux and Loss in Transformer Cores
变压器铁心磁通和损耗分布的有限元分析
7.
Analyses of Core Loss for Saturation Iron Using Finite Element Method of Harmonic Balance
谐波平衡有限元法用于饱和铁心的损耗分析
8.
Investigation on the Core Loss of Amorphous Stator Core for High-Speed Motor
高速电机用非晶合金定子铁心的损耗特性研究
9.
Analysis on Magnetic Field and Eddy Current Loss in the Disk Coreless Permanent Magnetic Synchronous Motor;
盘式无铁心永磁电机气隙磁场与永磁体涡流损耗分析
10.
Magnetic and loss characteristics of inclined joint iron core based on dual-laminated-core model
基于双方圈模型的叠片铁心斜接缝磁化及损耗特性
11.
Researching of Magnetic Loss Mechanisms of Hexaferrite Absorber
六角晶系铁氧体吸收剂磁损耗机理研究
12.
Synthesis of Ni-Zn Ferrite by Sol-Gel Method and Its Electromagnetic Loss Property
溶胶-凝胶法制备镍锌铁氧体及其电磁损耗性能
13.
Microstructure of insulating coatings and their influence on the iron loss of oriented silicon steel
取向硅钢绝缘涂层结构及其对铁芯损耗的影响
14.
Locomotive and rolling stock wheel/rail frictional wear and energy-saving and consumption-reducing
铁道机车车辆轮轨的摩擦磨损与节能降耗
15.
A quantity or portion of something lacking after delivery or storage.
减耗量物品的储运损耗部分或损耗量
16.
For the time being we are concerned only with the question of how much we have to pay for obsolescence cost.
这里我们仅关心我们要有多少无形损耗的问题。
17.
The results also showed that the specific saturation magnetization and the magnetic loss power of the product increased with the increasing of ferrous content.
产物比饱和磁化强度和磁损耗功率随铁含量的增加而增大。
18.
Wide frequency band, high power, low losses and wide temperature coefficient are the developing trends of microwave ferrite materiel.
微波铁氧体材料的发展趋势是宽频带、功率、损耗、温度系数。