| 1. | The direction of magnetisation will change in core a only, thus storing a binary digit .
磁化方向仅在磁心a中改变,因而存储一个二进制数字。 |
| 2. | In strong fields the magnetization usually changes by rotation of the direction of magnetization .
在强磁场中,磁化往往由于磁化方向转向而改变。 |
| 3. | Direction of easy magnetization
易磁化方向 |
| 4. | A specific method for magnetic recording of bits in which each storage cell comprises two regions magnetized in opposite senses with unmagnetized regions on each side
数据位磁记录的一种特殊方法,各存储单元包含两个磁化区其磁化方向相反,每侧有一个非磁化区。 |
| 5. | It has been shown that , when the direction of stress parallels magnetizing direction , barkhausen signal increases with the increasing of tensile stress , decreases with the increasing of compressive stress
结果表明,应力方向与磁化方向平行时,巴克豪森信号值随拉应力的增大而增大,随压应力的增大而减小。 |
| 6. | But at the same time , it has been found that the correlation changes when magnetizing direction deviates from the direction of stress , or magnetizing strength increases , even a contrary trend will advent in a special situation
但同时也发现随着磁化方向与应力方向的偏离,或是随着磁化强度的变化,这种相关性会发生变化,在特定条件下甚至出现相反变化趋势。 |
| 7. | As to the paramagnetic ergag , the whole maganetization is zero . the crystal energy levels will split further when the magnetic field is parallel to the especial four directions . we - gain the according wave function and the magnetization changing with the magnetic field
考虑了外磁场沿晶体四个方向磁化时,晶场能级的进一步劈裂以及得出了其相应的波函数,从而分析了不同磁化方向磁化强度随外磁场的变化关系。 |
| 8. | The properties of different permanent magnetic bearings with both axial and radial magnetization are studied by mean of equivalent current and finite element method respectively . the levitation forces and stiffness have been calculated and agreed well with measured data
研究了采用轴向和径向不同磁化方向的永磁环所构成的永磁磁悬浮轴承悬浮特性,分别运用等效电流法以及有限元法分析计算了磁悬浮力以及刚度特性。 |
| 9. | To obtain the mechanism , we find the temperature " contribution to the magnetic anisotropy . the change of the temperature have a main effect on the occupied probability to all the energy levels . to the diverse crystal site , the probability is not identical
为进一步分析ergag石榴石磁性各向异性的产生机理,我们计算温度的变化对ergag磁化的贡献,发现温度的变化对不同方向磁化的影响也很大,温度的变化影响了离子占据能级的几率,并且沿不同磁化方向,对不同晶座,温度的影响也有着不同的差异。 |
| 10. | For example , when magnetic material being pressed , magnetic domain , direction and strength of spontaneous magnetization will vary . this phenomenon is called effect of pressing magnet . whichever rearrangement of magnetic domain or direction change of spontaneous magnetization will induces extra shape change of material
如对铁磁材料施加应力时,往往会导致磁畴、自发磁化方向和强度发生变化,这一现象称之为压磁效应,由于得益于压磁效应的作用,不论是磁畴重新排列还是自发磁化方向发生变化都会引起材料额外的形变,因此在一定应力的作用下铁磁材料能产生非弹性变形。 |
