A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Porous ceramic, preparation method thereof and atomizing core
The embodiment of the invention belongs to the technical field of atomizing cores, and relates to porous ceramic, a preparation method thereof and an atomizing core, and the preparation method of the porous ceramic comprises the following steps: providing skeleton powder and a pore forming agent; mixing the skeleton powder and a pore forming agent to form a first mixture; performing kneading treatment on the first mixture to form a second mixture; performing pugging treatment on the second mixture to form a third mixture; carrying out molding treatment on the third mixture to form porous ceramic; wherein the skeleton powder comprises diatomite, sodium silicate and kaolin, the mass ratio of the skeleton powder to the first mixture is 50%-70%, and the mass ratio of the pore forming agent to the first mixture is 15%-35%. The porous ceramic in the prior art is low in yield due to limitation of the material ratio and the forming process of the porous ceramic. According to the proportion of the skeleton powder to the pore forming agent and the preparation process of the porous ceramic, the yield of the prepared porous ceramic is high, and the porous ceramic is not prone to deformation and other phenomena.
申请实施例属于雾化芯技术领域,涉及一种多孔陶瓷及其制备方法、雾化芯,多孔陶瓷的制备方法包括:提供骨架粉料、造孔剂;将骨架粉料和造孔剂混合,形成第一混合物;对第一混合物进行捏合处理,以形成第二混合物;对第二混合物进行练泥处理,以形成第三混合物;对第三混合物进行成型处理,以形成多孔陶瓷;其中,骨架粉料包括硅藻土、硅酸钠和高岭土,骨架粉料与第一混合物的质量比为50%~70%,造孔剂和第一混合物的质量比为15%~35%。现有技术的多孔陶瓷因其材料配比和成型工艺限制,其生产的多孔陶瓷其良品率低。本申请的骨架粉料和造孔剂的配比以及多孔陶瓷的制备流程,能够使本申请制备出的多孔陶瓷的良品率高,其不易出现变形等现象。
Porous ceramic, preparation method thereof and atomizing core
The embodiment of the invention belongs to the technical field of atomizing cores, and relates to porous ceramic, a preparation method thereof and an atomizing core, and the preparation method of the porous ceramic comprises the following steps: providing skeleton powder and a pore forming agent; mixing the skeleton powder and a pore forming agent to form a first mixture; performing kneading treatment on the first mixture to form a second mixture; performing pugging treatment on the second mixture to form a third mixture; carrying out molding treatment on the third mixture to form porous ceramic; wherein the skeleton powder comprises diatomite, sodium silicate and kaolin, the mass ratio of the skeleton powder to the first mixture is 50%-70%, and the mass ratio of the pore forming agent to the first mixture is 15%-35%. The porous ceramic in the prior art is low in yield due to limitation of the material ratio and the forming process of the porous ceramic. According to the proportion of the skeleton powder to the pore forming agent and the preparation process of the porous ceramic, the yield of the prepared porous ceramic is high, and the porous ceramic is not prone to deformation and other phenomena.
申请实施例属于雾化芯技术领域,涉及一种多孔陶瓷及其制备方法、雾化芯,多孔陶瓷的制备方法包括:提供骨架粉料、造孔剂;将骨架粉料和造孔剂混合,形成第一混合物;对第一混合物进行捏合处理,以形成第二混合物;对第二混合物进行练泥处理,以形成第三混合物;对第三混合物进行成型处理,以形成多孔陶瓷;其中,骨架粉料包括硅藻土、硅酸钠和高岭土,骨架粉料与第一混合物的质量比为50%~70%,造孔剂和第一混合物的质量比为15%~35%。现有技术的多孔陶瓷因其材料配比和成型工艺限制,其生产的多孔陶瓷其良品率低。本申请的骨架粉料和造孔剂的配比以及多孔陶瓷的制备流程,能够使本申请制备出的多孔陶瓷的良品率高,其不易出现变形等现象。
Porous ceramic, preparation method thereof and atomizing core
一种多孔陶瓷及其制备方法、雾化芯
CHEN ERWEI (author) / LI FEILONG (author) / NIE GE (author)
2024-05-31
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
Porous ceramic, atomizing core, atomizing device and porous ceramic preparation method
| European Patent Office | 2023
| European Patent Office | 2022
Porous ceramic, preparation method thereof, atomizing core and electronic atomizing device
| European Patent Office | 2023
Porous ceramic atomizing core and preparation method thereof
| European Patent Office | 2023
Porous ceramic atomizing core and preparation method thereof
| European Patent Office | 2021