Ba-ferrite powder 钡铁氧体磁粉
Z-type hexagonal Ba-ferrite Z型六角晶系钡铁氧体
Ba-ferrite 钡铁氧体
ba ferrite films 钡铁氧体薄膜
hexagonal Ba-ferrite 钡铁氧体纳米晶粒
ba ferrite particulate 钡铁氧体磁粉
w type ba ferrite w型钡铁氧体
w-type ba-ferrite w型钡铁氧体
ba-ferrite thin film 钡铁氧体薄膜
Through adding the dopant, low temperature of M-type ferrite was obtained. Because M-type Ba ferrite has high anisotropy inner field, the decrease of the ferrite sintering temperature makes the slice millimeter wave component through LTCF technology to become possible.
通过对钡铁氧体掺杂实现了低温烧结,由于M型钡铁氧体具有的高磁晶各向异性内场,降低烧结温度使其有望实现通过LTCF(低温共烧铁氧体)技术研制片式化的微波/毫米波旋磁器件。
参考来源 - 六角M型钡铁氧体材料的低温烧结与基本磁性能研究·2,447,543篇论文数据,部分数据来源于NoteExpress
This model could be used to explain the magnetization reversal mechanism of the oriented Ba ferrite particulate media.
此模型可用来解释取向钡铁氧体磁粉介质的反磁化机理。
Partially crystallized Ba ferrite thin films were prepared by the strict controlling of the rapid thermal annealing time for as deposited amorphous thin films.
对于沉积态非晶薄膜,通过严格控制其快速热处理时间,从而制备出了部分晶化钡铁氧体薄膜。
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