1·While, the saturation magnetization decreases slightly with increasing aging temperature.
而饱和磁化强度随时效温度的升高而略有下降。
2·Special saturation magnetization increases gradually with the increase of annealing temperature.
比饱和磁化强度随退火温度的升高逐渐增大。
3·The saturation magnetization of the sample is 1.79T close to the theoretical value of the same composition alloy.
试样的饱和磁化强度为1.79T,接近相同成分下合金的理论磁化强度的数值。
4·With increasing annealing temperature, the coercivity Hc decreases and the saturation magnetization Ms increases.
随焙烧温度的升高,矫顽力下降,而饱和磁化强度升高。
5·With the alloy content in the composite fibers increased, the saturation magnetization increases, while the coercivity decreased.
随着复合纤维中合金含量的增加,饱和磁化强度增大,而矫顽力下降。
6·In comparison with undoped barium ferrite, saturation magnetization of samples increased and intrinsic coercivity decreased remarkably.
掺杂后钡铁氧体饱和磁化强度较未掺杂钡铁氧体有所提高,矫顽力则显著下降。
7·The positive correlation between equivalent magnetic iron oxide content and saturation magnetization of coal-fired fly ash is significant.
燃煤飞灰饱和磁化强度与其中的磁性当量铁相对含量存在明显的正相关性。
8·The powder prepared by the coprecipitation process showed the formation of spinel cubic structure with a saturation magnetization (Ms) of 31.
研究结果表明 ,高温合成过程中过渡金属氧化物形成立方尖晶石固溶体。
9·Saturation magnetization of coal-fired fly ash decreases with increasing temperature in the temperature range in which complete burning of coal can take place.
随着温度的上升,燃煤飞灰饱和磁化强度在保证煤粒充分燃烧温度范围内有逐渐降低的趋势。
10·In the application of high density data storage, the strong magnetic material section contains nanometer magnetic particulate with high saturation magnetization.
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。