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.
在选择发热部件的材料时,应主要考虑具有磁饱和度高、导磁特性高,并且剩磁小的铁磁性材料,以便获得较大的发热功率。
The ferromagnetic materials which has high magnetic saturation, high characteristics of magnetic conductive and low remanence should be chosen first for the higher heat power.
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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