Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Porous ceramic, preparation method thereof, atomizing core and electronic atomizing device
The invention relates to porous ceramic and a preparation method thereof, an atomizing core and an electronic atomizing device, ceramic raw materials comprise inorganic powder and organic components, the inorganic powder comprises, by weight, 10-25 parts of a base material A, 30-60 parts of a base material B, 5-30 parts of a base material C, 5-25 parts of a base material D and 10-20 parts of a base material E. The base material A comprises one or two of diatomite and attapulgite; the base material B comprises alumina powder; the base material C comprises low-melting-point glass powder; the base material D is a pore-forming agent; the base material E comprises one or two of silicon carbide whiskers and aluminum nitride whiskers; the organic component is prepared from the following components in parts by weight: 15 to 35 parts of plasticizer and 5 to 10 parts of surfactant; the weight ratio of the inorganic powder to the organic component is (100: 23)-(100: 40). By reasonably controlling the weight of each component of the ceramic raw material, the thermal conductivity of the porous ceramic is improved while the mechanical strength is guaranteed.
一种多孔陶瓷及其制备方法、雾化芯、电子雾化装置,陶瓷原料包括无机粉料和有机组分,所述无机粉料以重量计份,包括10‑25份的基料A,30‑60份的基料B,5‑30份的基料C,5‑25份的基料D,10‑20份的基料E,其中:基料A包括硅藻土,凹凸棒中的一种或两种;基料B包括氧化铝粉;基料C包括低熔点玻璃粉;基料D为造孔剂;基料E包括碳化硅晶须,氮化铝晶须中的一种或两种;所述有机组分以重量计份,包括15‑35份的塑化剂,5‑10份的表面活性剂;所述无机粉料与所述有机组分的重量比为100:23‑100:40。本发明通过合理控制陶瓷原料各组分的份量,在保障机械强度的同时,提高多孔陶瓷的热导率。
Porous ceramic, preparation method thereof, atomizing core and electronic atomizing device
The invention relates to porous ceramic and a preparation method thereof, an atomizing core and an electronic atomizing device, ceramic raw materials comprise inorganic powder and organic components, the inorganic powder comprises, by weight, 10-25 parts of a base material A, 30-60 parts of a base material B, 5-30 parts of a base material C, 5-25 parts of a base material D and 10-20 parts of a base material E. The base material A comprises one or two of diatomite and attapulgite; the base material B comprises alumina powder; the base material C comprises low-melting-point glass powder; the base material D is a pore-forming agent; the base material E comprises one or two of silicon carbide whiskers and aluminum nitride whiskers; the organic component is prepared from the following components in parts by weight: 15 to 35 parts of plasticizer and 5 to 10 parts of surfactant; the weight ratio of the inorganic powder to the organic component is (100: 23)-(100: 40). By reasonably controlling the weight of each component of the ceramic raw material, the thermal conductivity of the porous ceramic is improved while the mechanical strength is guaranteed.
一种多孔陶瓷及其制备方法、雾化芯、电子雾化装置,陶瓷原料包括无机粉料和有机组分,所述无机粉料以重量计份,包括10‑25份的基料A,30‑60份的基料B,5‑30份的基料C,5‑25份的基料D,10‑20份的基料E,其中:基料A包括硅藻土,凹凸棒中的一种或两种;基料B包括氧化铝粉;基料C包括低熔点玻璃粉;基料D为造孔剂;基料E包括碳化硅晶须,氮化铝晶须中的一种或两种;所述有机组分以重量计份,包括15‑35份的塑化剂,5‑10份的表面活性剂;所述无机粉料与所述有机组分的重量比为100:23‑100:40。本发明通过合理控制陶瓷原料各组分的份量,在保障机械强度的同时,提高多孔陶瓷的热导率。
Porous ceramic, preparation method thereof, atomizing core and electronic atomizing device
一种多孔陶瓷及其制备方法、雾化芯、电子雾化装置
ZHAO CHENGZHI (Autor:in) / WANG TAIBAO (Autor:in)
27.02.2024
Patent
Elektronische Ressource
Chinesisch
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