着重介绍了有机铁磁体的研究动态。
The main progress in the studies of organic ferromagnets is introduced.
对近年来多孔磁体的研究进行了综述。
当然这也需要路面由装有磁体的集成面板来铺设。
Of course this will also require the roads to be made of huge concrete panels with magnets formed in them. [link].
对开路电磁体的端面磁场进行了研究。
Objective: Studied magnetic fied of end on open electromagnet.
铁是制造磁体的最佳金属。
研究了磁体的指数损耗随电流变化的趋势。
The trend of the index loss of the magnet with increasing current was studied.
目的评价各种镀膜钕铁硼磁体的生物相容性。
Objective To investigate the biocompatibility of different coating NdFeB magnets.
目的:评价各种镀膜钕铁硼磁体的细胞相容性。
Objective: To investigate the cell biocompatibility of different coating NdFeB magnets.
内部和外部线圈损耗的总和等于整个磁体的损耗。
The sum of losses of the inside and the outside coils is equal to that of the whole magnet.
永磁体的矫顽力有限,必须防止永磁体的不可逆去磁。
Because of limited coercive force of permanent magnet, the non-reversible demagnetization of it must be prevented.
这样你就可以验证磁体的定律:同极相斥,异极相吸。
You will thus checks the law of magnets: like poles repel; Unlike poles attract.
利用该系统还可以对磁体的几何形状、尺寸、性能进行设计。
By using this system many magnet parameters such as geometrical shape, size and magnetic properties can be designed reasonably.
最后,我们研究了自旋偏压驱动的单分子磁体的量子输运特性。
Finally, we study the transport properties of single molecular magnet driven by spin bias voltage.
本文主要研究阿尔法磁谱仪(简称ams)永磁磁体的磁矩问题。
The dipole moment of a permanent magnet for Alpha Magnetic Spectrometer (AMS) is discussed in the paper.
指出了粉末注射成形在生产低成本、高精度、高性能磁体的技术优势。
The advantages of PIM in production of low cost novel bonded magnets with high tolerance were emphasized.
利用标准的自旋波理论,研究了二维三角海森堡反铁磁体的色散关系。
On the basis of standard spin-wave theory, the magnetic dispersion relations for a two-dimensional Heisenberg antiferromagnet are investigated.
利用旋转坐标系的方法,计算了各向异性铁磁体的磁化强度和共振频率。
The magnetization and the resonant frequency of the anisotropic ferromagnet are calculated by means of rotation of the coordinate system.
采用分类综述的方法对氮氧自由基类有机铁磁体的合成现状进行了阐述。
The paper expounded how to synthesizing an organic ferromagnet which contained free radical of nitroxide recent decades.
取向成型是烧结和粘结磁体的一道重要工序,对最终磁体的性能有直接影响。
As an important procedure for sintered and bonded magnets, orienting compression has direct influence on the property of the magnet.
这是一个系统,都依赖于对磁体的燃烧器和特殊盆和产生热量只有在两个接触。
This is a system that relies on magnets in both the burner and special POTS and produces heat only when the two are in contact.
超导储能磁体的失超是超导电力设备技术实用化有待深入研究的一个重要问题。
Quench of superconductor is a key problem for the practical application of superconducting electrical power equipment.
随着晶粒取向度的提高,纳米晶单相磁体的矫顽力逐渐增加,这完全不同于烧结磁体。
The investigation shows the increase of coercivity with improved grain alignment in nanocrystalline magnets, which is completely different from the phenomena in sintered magnets.
本文介绍一种用于直流超导磁体的失超信号探测方法。它具有简单、可靠、灵敏等优点。
Presented in this paper is a detective method o? The quenching signal for the d. c. superconducting magnets. It has the advantage of simplicity, reliability and high sensitivity.
本文总结了6D超导托卡马克环形磁体系统的D_3超导磁体的设计,研制与试验工作。
The present paper summarizes the design, development and test of the D3 superconducting magnet of the toroidal magnet system of the 6D superconducting tokamak.
介绍了注射成形用磁粉的多种制造方法,常用注射成形粘结磁体和杂合磁体的基本性能及应用。
The methods of producing magnetic powder for PIM, and the properties and application of PIM bonded magnets and hybrid magnets were recited.
在以前,量子算法也被提出过,但只适用于一些奇特的系统,这些系统使用了悬浮于强磁体的激光束或离子。
Quantum algorithms have been processed before, but only in exotic systems using lasers or ions suspended with strong magnets.
本文围绕矩形永磁体的空间磁场分布问题,进行了系列理论研究、基础实验研究及数值模拟研究。
Surrounding the special magnetic field distribution of the rectangular magnet, series research of fundamental experiments, theoretical analysis and computing simulations were presented.
本文给出了高均匀度的NMR超导磁体的设计方法。给出了体积极小的六阶补偿线圈的各个参数。
Mathematical methods for designing high homogeneous NMR Superconducting-magnets, giving the major parameters of sixth order compensated solenoids with minimum winding volume.
纳米复合永磁材料中添加微量元素,对改善纳米复合磁体的微结构、提高硬磁性能有着显著的功效。
Microelement in the nanostructured composite permanent magnet can reform the microstructure of the permanent magnet, and increase the hard magnetic character remarkably.
纳米复合永磁材料中添加微量元素,对改善纳米复合磁体的微结构、提高硬磁性能有着显著的功效。
Microelement in the nanostructured composite permanent magnet can reform the microstructure of the permanent magnet, and increase the hard magnetic character remarkably.
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