由于磁性矿物受当时磁场作用往往呈定向排列,导致岩石磁化率各向异性,反映了岩石的磁组构特征。
The anisotropy of rock magnetic susceptibility, caused by the oriented arrangement of magnetic minerals effected by then magnetic field, reflects the feature of the rock magnetic fabric.
磁力共振是一种与磁性介质尺寸有关的共振现象,它是在磁化过程中伴之较大的磁致伸缩振动引起的力学共振。
Magnetomechanical resonance is a resonant phenomenon related to the size of magnetic medium and it is a mechanical resonance caused by magnetostriction vibration during magnetization.
结果表明,磁流变液的剪切应力随着磁性固体粒子浓度增大而增大,随磁性固体粒子的磁化强度呈平方正比关系。
The results show that the shear stress increases as the rising of the particle volume fraction, and the shear stress is proportional to the square of the magnetization.
自发磁化和磁畴结构是铁磁性物质的两个基本特点。
The self-magnetization and the magnetic domains are two basic properties of the ferromagnetic materials.
研究了在倾斜磁场下感生单轴磁各向异性对静磁正向体波激发的影响,并考虑了易磁化轴垂直和平行于磁性薄膜两种情形。
This paper presented a theoretical investigation of the effects of the induced uniaxial anisotropy on excitation of magnetostatic forward volume waves under obliquely biased magnetic field.
铁磁类物质磁化后,内部的磁畴整整齐齐、方向一致地排列起来,使磁性加强,就构成磁铁了。
Ferromagnetic kind material after magnetization, the internal magnetic light-induced very neat, the direction to align, magnetic strengthening, constitutes the magnet.
常用的磁性泥浆含有铁磁质或磁性物质,另外还有一些低磁化率矿物也有贡献,如赤铁矿、钛铁矿。
The most common magnetic muds contain iron filings or magnetite. Other paramagnetic minerals such as hematite and ilmenite may contribute, although their magnetic susceptibility is considerably less.
在高密度数据存储应用中,所述强磁材料区含有高饱和磁化强度的纳米磁性微粒。
In the application of high density data storage, the strong magnetic material section contains nanometer magnetic particulate with high saturation magnetization.
结果表明,所得磁性粒子具有粒径均一可控、饱和磁化率高、磁响应性可控、比表面积大和超顺磁等优点,基本满足磁性色谱分离固定相的要求。
The results showed that the magnetic microspheres were uniform, well dispersed, highly porous and magnetizable, which make them ideal for use as packing materials in chromatography.
结果表明,所得磁性粒子具有粒径均一可控、饱和磁化率高、磁响应性可控、比表面积大和超顺磁等优点,基本满足磁性色谱分离固定相的要求。
The results showed that the magnetic microspheres were uniform, well dispersed, highly porous and magnetizable, which make them ideal for use as packing materials in chromatography.
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