| 1. | Wideband torpedo homing display system simulation
星体剩磁矩对姿控系统影响的仿真研究 |
| 2. | Technical determination method for electrical fire cause - part 2 : recidual magnetic method
电气火灾原因技术鉴定方法第2部分:剩磁法 |
| 3. | This hypothesis is only observed oceanic ridges of rock and the residual magnetic field sensors made to return the reverse
此假说只是观察到岩石和大洋洋脊的感应剩磁场来回反向而提出来的。 |
| 4. | Ii . hc and mr / ms rise with the extension of time , which also because the fcc texture changes into fct texture
(二)随着热处理时间的延长,矫顽力和剩磁比显示出与( l )相同的变化趋势,其解释也是同样的。 |
| 5. | The change of composing phases , the internal - stress and microstructure had insignificant effects on the magnetic properties for the s s fiber
纤维化过程引起材料内应力、微组织结构的改变,进而对纤维的磁导率、矫顽力、剩磁性能产生重要的影响。 |
| 6. | The highest hc and mr / ms are obtained when c thickness is 10a . iv . hc decreases with the increasing of film thickness from 600a to 1400a
( 4 )薄膜的厚度在600 1400人的范围内,随着厚度的增加,矫顽力呈现降低的趋势,而剩磁比的变化并不明显。 |
| 7. | I . hc is greatly improved from several oe to nine thousands oe with the rise of annealing temprature , but mr / ms decreases , which mainly because fcc texture changes into fct texture
热处理温度在600 850的范围内,随着的温度的升高剩磁比稍有降低,主要原因是晶相结构的形成和fcc相到fct相的转变。 |
| 8. | Pinning centers , that are some abnormal regions in type ii superconductors , will hinder the flux motion . certain of remnant magnetism in a superconductor will make it to a superconducting permanent magnet
非理想第类超导体内部存在的异常区,即钉扎中心,会对磁通线的运动产生阻碍作用,使超导体具有一定的剩磁而成为超导永磁体。 |
| 9. | The structural vibrational equations for the former are also depicted . the disturbance torques imparted by space environment are analyzed , which include gravity gradient torque , solar pressure torque , aerodynamic torque and magnetic torque
对作用在卫星上的各种空间环境力矩进行了分析,包括重力梯度力矩、太阳光压力矩、气动力矩、剩磁力矩等。 |
| 10. | Although the increment of the residual magnetism on the object after every cycle of magnetization - demagnetization process is very small , with the increase of the cycle index the object must be finally magnetized intensely and spontaneously
虽然每次磁化一退磁过程之后物体上的剩磁增量非常微小,但随着循环次数的增加该物体最终必然被强烈地自发磁化。 |
