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Novel porous ceramic atomizing core production process
The invention relates to the technical field of porous ceramic atomization core production, and discloses a novel porous ceramic atomization core production process, which comprises the following steps: mixing SiO2, Al2O3, Na2CO3 and CaCO3 powder, pore-forming powder and water, adding a binder, stirring, in the stirring process, the pore-forming powder comprises graphite, starch and plastic particles, the addition amount of the pore-forming powder is 10-50% of the total mass of the powder, and the binder is a binder; taking out the stirred mixed slurry, uniformly drying to obtain a ceramic dry body, uniformly crushing the dried ceramic dry body, uniformly dispersing the crushed ceramic dry body to obtain ceramic granulation powder, and then performing dry pressing on the ceramic granulation powder obtained after crushing. The invention relates to a novel porous ceramic atomization core production process, provides a design thought of a ceramic atomization core, and greatly simplifies the development period of ceramic and stabilizes the atomization performance of the ceramic by controlling the porosity and aperture of the ceramic and matching with the oil seepage distance of the corresponding atomization core.
本发明涉及多孔陶瓷雾化芯生产技术领域,且公开了一种新型的多孔陶瓷雾化芯生产工艺,包括将SiO2,Al2O3,Na2CO3,CaCO3粉体以及造孔粉与水混合,并添加粘结剂进行搅拌,在搅拌的过程中,造孔粉为石墨,淀粉,塑料颗粒,添加量为粉体总质量的10‑50%,将搅拌的混合浆料取出后,进行均匀烘干,烘干后得到陶瓷干燥体,将烘干后的陶瓷干燥体进行均匀破碎,破碎后的陶瓷干燥体均匀分散,得到陶瓷造粒粉,随后将破碎后得到的陶瓷造粒粉进行干压。一种新型的多孔陶瓷雾化芯生产工艺,提供了一种陶瓷雾化芯的设计思路,通过控制陶瓷的孔隙率和孔径,并与对应雾化芯的渗油距离进行匹配,极大简化了陶瓷的开发周期,同时稳定了陶瓷的雾化表现。
Novel porous ceramic atomizing core production process
The invention relates to the technical field of porous ceramic atomization core production, and discloses a novel porous ceramic atomization core production process, which comprises the following steps: mixing SiO2, Al2O3, Na2CO3 and CaCO3 powder, pore-forming powder and water, adding a binder, stirring, in the stirring process, the pore-forming powder comprises graphite, starch and plastic particles, the addition amount of the pore-forming powder is 10-50% of the total mass of the powder, and the binder is a binder; taking out the stirred mixed slurry, uniformly drying to obtain a ceramic dry body, uniformly crushing the dried ceramic dry body, uniformly dispersing the crushed ceramic dry body to obtain ceramic granulation powder, and then performing dry pressing on the ceramic granulation powder obtained after crushing. The invention relates to a novel porous ceramic atomization core production process, provides a design thought of a ceramic atomization core, and greatly simplifies the development period of ceramic and stabilizes the atomization performance of the ceramic by controlling the porosity and aperture of the ceramic and matching with the oil seepage distance of the corresponding atomization core.
本发明涉及多孔陶瓷雾化芯生产技术领域,且公开了一种新型的多孔陶瓷雾化芯生产工艺,包括将SiO2,Al2O3,Na2CO3,CaCO3粉体以及造孔粉与水混合,并添加粘结剂进行搅拌,在搅拌的过程中,造孔粉为石墨,淀粉,塑料颗粒,添加量为粉体总质量的10‑50%,将搅拌的混合浆料取出后,进行均匀烘干,烘干后得到陶瓷干燥体,将烘干后的陶瓷干燥体进行均匀破碎,破碎后的陶瓷干燥体均匀分散,得到陶瓷造粒粉,随后将破碎后得到的陶瓷造粒粉进行干压。一种新型的多孔陶瓷雾化芯生产工艺,提供了一种陶瓷雾化芯的设计思路,通过控制陶瓷的孔隙率和孔径,并与对应雾化芯的渗油距离进行匹配,极大简化了陶瓷的开发周期,同时稳定了陶瓷的雾化表现。
Novel porous ceramic atomizing core production process
一种新型的多孔陶瓷雾化芯生产工艺
LIU SONGQING (author)
2022-04-12
Patent
Electronic Resource
Chinese
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