这与电磁损耗特性的结果相一致。
The results are consistent with the electromagnetic loss property.
复合物的电磁损耗是磁损耗角正切值和介电损耗角正切值的综合结果。
The electromagnetic loss of the composites is a consolidated results of the magnetic and dielectric loss factors.
并测试样品的相对介电常数和相对磁导率,研究了它们的电磁损耗特性。
The electromagnetic loss property was studied by the relative dielectric constant and relative magnetic permeability of the ferrites.
经测试样品的相对介电常数和相对磁导率后,研究了它们的电磁损耗特性。
The electromagnetic loss property was studied by the relative dielectric constant and relative magnetic permeability of the above three ferrites.
为抑制电磁干扰现象,需要开发应用频率高电磁损耗大的吸波材料,有效吸收电磁噪声能量。
Electromagnetic absorbing materials with high magnetic loss in the high frequency range are required to absorb the noise energy, aiming at restraining the electromagnetic interference.
水轮发电机的温度场分布是否合理直接关系到电机的安全运行,而温度场的分布又取决于冷却介质和电磁损耗的分布。
Whether thermal field of hydro-generator is rational or not affects its security directly, however the thermal field lies on the distributions of cooling material and electromagnetic losses.
为了抑制高频发射噪声引起的电磁波泄漏,就需要开发频率高损耗大的电磁波吸收材料,有效地吸收噪声能量。
Electromagnetic absorbing materials with high frequency and high loss are required to absorb the noise energy, aiming at restraining the electromagnetic leak induced by high-frequency emission noise.
治理好谐波,不仅能降低电能损耗,而且能延长设备使用寿命,改善电磁环境,提高产品的品质。
Governing harmonics well, not only can reduce the power loss, but also could extend equipment life, improve the electromagnetic environment, improve product quality.
应用电磁场理论讨论了薄导体平板中的涡流、磁场分布及由涡流引起的损耗。
This paper discusses the eddy current and magnetic distribution based on the theory of electromagnetic, it also deals with the loss caused by eddy current.
在本文中,首先从电磁理论出发,利用波动光学理论分析平板波导的特性,对多模光纤连接损耗进行了理论分析。
In this thesis, at first we will introduce the electromagnetic theory of optical planar waveguide, analyze the transmission characteristic of different modes and the connection loss of fiber.
在输配电过程中,电能传送和电磁能量转换都是通过电流实现的,电流通过导线或电气设备时会产生损耗。
In the course of transmission and distribution, power transmission and electromagnetic energy conversion is achieved through the current, the current through the wires will have a loss.
与传统的电流互感器相比,这种互感器具有高精度、低损耗、体积小、频带宽、良好的动态特性和不受电磁干扰的优点。
Compared with the conventional current transformer, the EOCT has high accuracy, low cost, small size, wide bandwidth, excellent dynamic characteristics and immunity from electromagnetic interference.
并采用优化设计、高导电磁材料制作,致使设备在空载时损耗低、功率输出更强劲、稳定、寿命更长。
And adopting the optimization design, high conductivity, the electromagnetic material production equipment in no-load loss low power output, more powerful, and stability, long service life.
介质波导中电磁场为eh_(11)模。讨论了模的耦合损耗。
EH11 mode in for the dielectric waveguide, and the mode coupling loss is discussed.
就吸波材料与电磁波的相互作用及其损耗机理进行了阐述。
The basic absorption mechanism of the microwave - absorbing material was studied, and its interaction on the electromagnetic wave was also studied.
分析研究了电磁机构的能量损耗组成、成因、理论计算方法以及线圈温升特性。
Then the constitution, cause, theoretical calculation method of power loss and the coil temperature rise characteristic are analyzed.
为了增大电磁波的损耗,还研究了在吸波材料中加入短金属纤维对材料的影响,并从理论上进行了讨论。
In order to increase the loss of the electro-magnetic wave, the effects were studied through the absorbing materials being imposed by short metal fibers, and their theory was also discussed.
铁氧体是目前应用最广泛的一类吸波材料,具有典型的电磁波磁损耗机理。
Ferrite, a typical kind of magnetic absorbing materials, is one of the most important EMW absorbing materials.
传统的五自由度主动磁力轴承可控性和承载力都比较好,但是使用的电磁铁过多,造成能量损耗较大。
Traditional five degrees of freedom active magnetic bearings are better controlled and also have large capacity, but its excessive use of electromagnet are resulting in great energy loss.
本文利用电磁波在金属表面的反射系数,推导出反射面天线表面欧姆损耗效率的计算公式。
Ohmic loss efficiencies of different high reflectivity reflector antenna metal surface are calculated at frequencies 30~300GHz.
传统两电平脉宽调制电磁轴承开关功放的电流纹波较大,导致电磁轴承中产生的纹波损耗较大。
Different from conventional two-level PWM switching power amplifier, the switching power amplifier can achieve current ripple reduction.
研究非正弦电磁波在损耗介质中传播的理论,对分析隐身技术中脉冲波的吸收等问题有理论指导意义。
Studying the propagation of nonsinusoidal wave in a dissipative medium is theoretically important for analyzing the problems on absorbed pulse waves in hidden techniques.
研究非正弦电磁波在损耗介质中传播的理论,对分析隐身技术中脉冲波的吸收等问题有理论指导意义。
Studying the propagation of nonsinusoidal wave in a dissipative medium is theoretically important for analyzing the problems on absorbed pulse waves in hidden techniques.
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