1) Ni-Zn ferrite films
Ni-Zn铁氧体薄膜
1.
Ni-Zn ferrite films with thickness of 1-2μm were prepared by spin-spray plating method at 90℃ on glass substrates from the deoxidizing solution of FeCl2+NiCl2+ZnCl2 and the oxidizing solution of CH3COONH4+ NH3H2O+NaNO2.
用FeCl2+NiCl2+ZnCl2组成的还原液和CH3COONH4+NH3H2O+NaNO2组成的氧化液不断地向转盘上的玻璃基片喷镀,在90℃下反应制备了厚度1~2μm的Ni-Zn铁氧体薄膜。
2) Ni-Zn-Co ferrite films
Ni–Zn铁氧体薄膜
3) Ni-Zn ferrite
Ni-Zn铁氧体
1.
Formation of nanocrystalline spinel Ni-Zn ferrite by mechanical alloying;
用机械合金化方法制备纳米晶Ni-Zn铁氧体
2.
Domain wall motion research in Ni-Zn ferrite under constant rate of H ;
匀速加场下Ni-Zn铁氧体DW运动的描述
3.
Effect of doping the different rare-earth oxide on wave absorbability of Ni-Zn ferrite/Al-alloy foams materials
掺杂不同稀土氧化物对Ni-Zn铁氧体/泡沫铝材料吸波性能的影响
4) Zn-Ni-Cr-ferrite
Zn-Ni-Cr-铁氧体
5) Ni-Cu-Zn ferrites
Ni-Cu-Zn铁氧体
1.
Mn-doping leads to an increase in density of sintered Ni-Cu-Zn ferrites.
结果表明:掺Mn可影响Ni-Cu-Zn铁氧体的晶胞参数,有利于提高烧结密度,改善微观结构和电磁性能。
2.
Ni-Cu-Zn ferrites were studied by phase formation,densification process and influence of Cu content on microstructure and electrical and magnetic properties.
研究了Cu对Ni-Cu-Zn铁氧体的成相,致密化过程及Cu含量对样品显微结构和电磁性能的影响。
3.
04) nanopowders were synthesized by microwave-hydrothermal method,and sintered into dense-ceramics under the conditions of 900℃/4h,Mg doped low-temperature sintered Ni-Cu-Zn ferrites were studied by phase formation,densification process and influence of Mg content on microstructure and electrical and magnetic properties.
对低温烧结掺Mg的Ni-Cu-Zn铁氧体的成相,致密化过程及Mg含量对样品显微结构和电磁性能的影响进行了研究。
6) Ni-Zn soft ferrites
Ni-Zn软磁铁氧体
1.
The development and research of Ni-Zn soft ferrites were described.
本文主要阐述了Ni-Zn软磁铁氧体材料的发展和研究现状。
补充资料:Ni-Zn ferrite
分子式:
分子量:
CAS号:
性质:高频软磁铁氧体,具有尖晶石结构,由铁、镍、锌的氧化物及其盐类用陶瓷工艺制成。其电阻率较高,可用到几百兆赫。此材料可制成中频变压器、短波天线棒、磁头、磁芯。还可在高频强磁场下用作发射机终端的级间耦合变压器或质子同步加速器的谐振腔的加速磁体等。
分子量:
CAS号:
性质:高频软磁铁氧体,具有尖晶石结构,由铁、镍、锌的氧化物及其盐类用陶瓷工艺制成。其电阻率较高,可用到几百兆赫。此材料可制成中频变压器、短波天线棒、磁头、磁芯。还可在高频强磁场下用作发射机终端的级间耦合变压器或质子同步加速器的谐振腔的加速磁体等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条