Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Ceramic, atomizing core and atomizer
The invention discloses ceramic, an atomizing core and an atomizer. The ceramic comprises a ceramic matrix and a modification layer, the modification layer is arranged on the surface of the ceramic matrix, and the modification layer comprises bismuth oxides and other components. The modification layer is arranged on the surface of the ceramic matrix, the formula of the modification layer is optimized, the bismuth oxide is added in the modification layer, the bismuth oxide replaces a lead-containing oxide in the prior art, the modification layer containing the bismuth oxide has excellent performance, the melting temperature of the modification layer can be reduced, the firing range is expanded, and the service life of the ceramic is prolonged. The thermal expansion coefficient of the modification layer is reduced, the thermal shock resistance and the tensile deformation resistance are improved, the performance of the atomization core is improved, and then the performance of the atomizer is improved.
本申请公开了一种陶瓷、雾化芯及雾化器。该陶瓷包括陶瓷基体和修饰层,修饰层设于陶瓷基体的表面,修饰层包括铋类氧化物和其他组分。通过在陶瓷基体表面设置修饰层,并优化修饰层的配方,在修饰层中添加铋类氧化物,由铋类氧化物取代了现有技术中含铅的氧化物,含有铋类氧化物的修饰层具有出色的性能,可以降低修饰层的熔融温度,扩大烧成范围,降低修饰层的热膨胀系数,提高抵抗热冲击的能力以及抗拉伸变形能力,提升了雾化芯的性能,进而提升了雾化器的性能。
Ceramic, atomizing core and atomizer
The invention discloses ceramic, an atomizing core and an atomizer. The ceramic comprises a ceramic matrix and a modification layer, the modification layer is arranged on the surface of the ceramic matrix, and the modification layer comprises bismuth oxides and other components. The modification layer is arranged on the surface of the ceramic matrix, the formula of the modification layer is optimized, the bismuth oxide is added in the modification layer, the bismuth oxide replaces a lead-containing oxide in the prior art, the modification layer containing the bismuth oxide has excellent performance, the melting temperature of the modification layer can be reduced, the firing range is expanded, and the service life of the ceramic is prolonged. The thermal expansion coefficient of the modification layer is reduced, the thermal shock resistance and the tensile deformation resistance are improved, the performance of the atomization core is improved, and then the performance of the atomizer is improved.
本申请公开了一种陶瓷、雾化芯及雾化器。该陶瓷包括陶瓷基体和修饰层,修饰层设于陶瓷基体的表面,修饰层包括铋类氧化物和其他组分。通过在陶瓷基体表面设置修饰层,并优化修饰层的配方,在修饰层中添加铋类氧化物,由铋类氧化物取代了现有技术中含铅的氧化物,含有铋类氧化物的修饰层具有出色的性能,可以降低修饰层的熔融温度,扩大烧成范围,降低修饰层的热膨胀系数,提高抵抗热冲击的能力以及抗拉伸变形能力,提升了雾化芯的性能,进而提升了雾化器的性能。
Ceramic, atomizing core and atomizer
陶瓷、雾化芯及雾化器
LI PEI (Autor:in) / LYU HONGXIA (Autor:in) / JIANG ZHENLONG (Autor:in)
26.07.2022
Patent
Elektronische Ressource
Chinesisch
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