A platform for research: civil engineering, architecture and urbanism
High-temperature fired ferrite-ceramic integrated base plate and preparation method
The invention relates to the field of high-temperature fired ferrite-ceramic integrated base plates and microwave, and discloses a high-temperature co-fired magnetic-ceramic integrated composite base plate that comprises a ceramic layer which is formed by molding and sintering medium ceramic powder; a magnetic layer is formed by molding and sintering ferrite materials; simultaneously, the invention also provides a preparation method for a high-temperature magnetic-ceramic co-fired composite base plate. The high-temperature co-fired magnetic-ceramic integrated composite base plate has the beneficial effects that: by adopting the high-temperature fired ferrite-ceramic integrated composite base plate, the high-temperature co-fired magnetic-ceramic integrated composite base plate can be used to solve the problem of bandwidth required by an ultra wide band microwave ferrite device, and is conducive to the broadband design of the frequency band of a microwave isolator, circulator and other devices. Simultaneously, the weight and the volume are reduced; the components are conducive to being produced at a low cost and in batches; the stability and reliability of the products are improved simultaneously.
High-temperature fired ferrite-ceramic integrated base plate and preparation method
The invention relates to the field of high-temperature fired ferrite-ceramic integrated base plates and microwave, and discloses a high-temperature co-fired magnetic-ceramic integrated composite base plate that comprises a ceramic layer which is formed by molding and sintering medium ceramic powder; a magnetic layer is formed by molding and sintering ferrite materials; simultaneously, the invention also provides a preparation method for a high-temperature magnetic-ceramic co-fired composite base plate. The high-temperature co-fired magnetic-ceramic integrated composite base plate has the beneficial effects that: by adopting the high-temperature fired ferrite-ceramic integrated composite base plate, the high-temperature co-fired magnetic-ceramic integrated composite base plate can be used to solve the problem of bandwidth required by an ultra wide band microwave ferrite device, and is conducive to the broadband design of the frequency band of a microwave isolator, circulator and other devices. Simultaneously, the weight and the volume are reduced; the components are conducive to being produced at a low cost and in batches; the stability and reliability of the products are improved simultaneously.
High-temperature fired ferrite-ceramic integrated base plate and preparation method
LIAO YANG (author) / ZHENG FUSHENG (author) / YANG FEI (author) / REN SHIJING (author) / CHEN NING (author) / HAO CHUNYU (author)
2015-08-26
Patent
Electronic Resource
English
IPC:
C04B
Kalk
,
LIME
Preparation method of ferrite embedded dielectric ceramic co-fired substrate
European Patent Office | 2023
|Preparation method and application of ferrite-ceramic heterogeneous co-fired material
European Patent Office | 2022
|One-time fired ceramic foaming insulation device integrated plate and preparation method thereof
European Patent Office | 2021
|PREPARATION METHOD OF LOW-TEMPERATURE FAST-FIRED LIGHTWEIGHT CERAMIC HEAT INSULATION PLATE.
European Patent Office | 2019
|LOW-TEMPERATURE FAST-FIRED LIGHTWEIGHT CERAMIC HEAT INSULATION PLATE AND PREPARATION METHOD THEREOF
European Patent Office | 2016
|