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Garnet ferrite material with high dielectric constant and medium saturation magnetization and preparation method thereof
The invention discloses a garnet ferrite material with high dielectric constant and medium saturation magnetization and a preparation method thereof, and relates to a material technology. The chemical formula of the garnet ferrite material is BiaCabYcZrdVeFe5-d-e-deltaO12, 0 < = a < = 1.2, 0 < = b < = 1.46, 0.34 < = c < = 1.8, 0 < = d < = 0.45, 0 < = e < = 0.505, 0 < = delta0.3, and deltais iron deficiency. The dielectric constant of the garnet ferrite material is 23-25, the garnet ferrite material has medium saturation magnetization, ferromagnetic resonance line width can be as low as 30Oe, dielectric loss is as low as 2.0 * 10 <-4 >, Curie temperature reaches up to 205 DEG C, and other rare earth elements except yttrium are not used. The material not only can effectively reduce the size of a microwave ferrite device, but also can reduce the insertion loss of the device and increase the bandwidth of the device, and is low in cost.
高介电中等饱和磁化强度石榴石铁氧体材料及制备方法,涉及材料技术。本发明的石榴石铁氧体材料化学式为BiaCabYcZrdVeFe5‑d‑e‑δO12,其中,0≤a≤1.2,0≤b≤1.46,0.34≤c≤1.8,0≤d≤0.45,0≤e≤0.505,0≤δ≤0.3,δ为缺铁量。本发明的石榴石铁氧体材料的介电常数为23~25,且同时具有中等的饱和磁化强度、铁磁共振线宽可低至30Oe、介电损耗低至2.0×10‑4、居里温度高达205℃,未使用除钇以外的其他稀土元素。该材料不仅可以有效降低微波铁氧体器件的尺寸,还可以降低器件的插入损耗,增加器件带宽,且成本低。
Garnet ferrite material with high dielectric constant and medium saturation magnetization and preparation method thereof
The invention discloses a garnet ferrite material with high dielectric constant and medium saturation magnetization and a preparation method thereof, and relates to a material technology. The chemical formula of the garnet ferrite material is BiaCabYcZrdVeFe5-d-e-deltaO12, 0 < = a < = 1.2, 0 < = b < = 1.46, 0.34 < = c < = 1.8, 0 < = d < = 0.45, 0 < = e < = 0.505, 0 < = delta0.3, and deltais iron deficiency. The dielectric constant of the garnet ferrite material is 23-25, the garnet ferrite material has medium saturation magnetization, ferromagnetic resonance line width can be as low as 30Oe, dielectric loss is as low as 2.0 * 10 <-4 >, Curie temperature reaches up to 205 DEG C, and other rare earth elements except yttrium are not used. The material not only can effectively reduce the size of a microwave ferrite device, but also can reduce the insertion loss of the device and increase the bandwidth of the device, and is low in cost.
高介电中等饱和磁化强度石榴石铁氧体材料及制备方法,涉及材料技术。本发明的石榴石铁氧体材料化学式为BiaCabYcZrdVeFe5‑d‑e‑δO12,其中,0≤a≤1.2,0≤b≤1.46,0.34≤c≤1.8,0≤d≤0.45,0≤e≤0.505,0≤δ≤0.3,δ为缺铁量。本发明的石榴石铁氧体材料的介电常数为23~25,且同时具有中等的饱和磁化强度、铁磁共振线宽可低至30Oe、介电损耗低至2.0×10‑4、居里温度高达205℃,未使用除钇以外的其他稀土元素。该材料不仅可以有效降低微波铁氧体器件的尺寸,还可以降低器件的插入损耗,增加器件带宽,且成本低。
Garnet ferrite material with high dielectric constant and medium saturation magnetization and preparation method thereof
高介电中等饱和磁化强度石榴石铁氧体材料及制备方法
JIANG XIAONA (Autor:in) / HUANG XIN (Autor:in) / LI LINGFENG (Autor:in) / SUN KE (Autor:in) / ZHANG FANGYUAN (Autor:in) / ZHANG XIAOFENG (Autor:in) / WANG CHAOMING (Autor:in) / YU ZHONG (Autor:in) / LAN ZHONGWEN (Autor:in)
11.07.2023
Patent
Elektronische Ressource
Chinesisch
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