Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Direct-current-superposition-resistant MnZn ferrite material as well as preparation method and application thereof
The invention relates to a direct current superposition-resistant MnZn ferrite material as well as a preparation method and application thereof. The direct current superposition-resistant MnZn ferrite material comprises a main material MnZn ferrite and an auxiliary material MnZn ferrite, the first additive comprises 0.3 wt% of Co2O3, 0.05 wt% of ZrO2, 0.03 wt% of V2O5 and 0.15 wt% of CaO according to the weight percentage of the main material and calculated by oxide, and the second additive comprises 0.1-0.5 wt% of YIG ferrite particles according to the weight percentage of the main material and calculated by oxide. The preparation method is an oxide ceramic method, and the green body is subjected to segmented sintering by controlling temperature and oxygen partial pressure conditions. According to the MnZn ferrite material disclosed by the invention, cobalt doping, YIG ferrite compounding and sintering process adjustment are performed, so that the MnZn ferrite material is good in morphology, high in magnetic conductivity and excellent in direct current superposition resistance.
耐直流叠加MnZn铁氧体材料及其制备方法和应用,本申请的耐直流叠加MnZn铁氧体包括:主材料为MnZn铁氧体;第一添加剂,按照主材料的重量百分比并以氧化物计算,包括0.3wt%Co2O3,0.05wt%ZrO2,0.03wt%V2O5,0.15wt%CaO,第二添加剂,按照主材料的重量百分比并以氧化物计算,包括0.1~0.5wt%YIG铁氧体颗粒。制备方法为氧化物陶瓷法,通过控制温度与氧分压条件对所述生胚在进行分段烧结。本申请的MnZn铁氧体材料通过钴掺杂并、YIG铁氧体复合,以及调整烧结过程,形貌佳且兼具高磁导率及优异的耐直流叠加特性。
Direct-current-superposition-resistant MnZn ferrite material as well as preparation method and application thereof
The invention relates to a direct current superposition-resistant MnZn ferrite material as well as a preparation method and application thereof. The direct current superposition-resistant MnZn ferrite material comprises a main material MnZn ferrite and an auxiliary material MnZn ferrite, the first additive comprises 0.3 wt% of Co2O3, 0.05 wt% of ZrO2, 0.03 wt% of V2O5 and 0.15 wt% of CaO according to the weight percentage of the main material and calculated by oxide, and the second additive comprises 0.1-0.5 wt% of YIG ferrite particles according to the weight percentage of the main material and calculated by oxide. The preparation method is an oxide ceramic method, and the green body is subjected to segmented sintering by controlling temperature and oxygen partial pressure conditions. According to the MnZn ferrite material disclosed by the invention, cobalt doping, YIG ferrite compounding and sintering process adjustment are performed, so that the MnZn ferrite material is good in morphology, high in magnetic conductivity and excellent in direct current superposition resistance.
耐直流叠加MnZn铁氧体材料及其制备方法和应用,本申请的耐直流叠加MnZn铁氧体包括:主材料为MnZn铁氧体;第一添加剂,按照主材料的重量百分比并以氧化物计算,包括0.3wt%Co2O3,0.05wt%ZrO2,0.03wt%V2O5,0.15wt%CaO,第二添加剂,按照主材料的重量百分比并以氧化物计算,包括0.1~0.5wt%YIG铁氧体颗粒。制备方法为氧化物陶瓷法,通过控制温度与氧分压条件对所述生胚在进行分段烧结。本申请的MnZn铁氧体材料通过钴掺杂并、YIG铁氧体复合,以及调整烧结过程,形貌佳且兼具高磁导率及优异的耐直流叠加特性。
Direct-current-superposition-resistant MnZn ferrite material as well as preparation method and application thereof
耐直流叠加MnZn铁氧体材料及其制备方法和应用
WU GUOHUA (Autor:in) / GUO RONGDI (Autor:in) / HU ZHONGQIANG (Autor:in) / LIU MING (Autor:in)
02.07.2024
Patent
Elektronische Ressource
Chinesisch
| Europäisches Patentamt | 2015
| Europäisches Patentamt | 2024
Wide-temperature super-large-current-resistant MnZn ferrite material and preparation method thereof
| Europäisches Patentamt | 2021
MnZn power ferrite material as well as preparation method and application thereof
| Europäisches Patentamt | 2024