A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
CERAMIC, ATOMIZATION CORE AND ATOMIZER
To disclose a ceramic, an atomizing core and an atomizer improving thermal shock resistance so as to improve performance of the atomization core and performance of the atomizer.SOLUTION: A ceramic 10 includes a ceramic substrate 11 and a modification layer 12 disposed on a surface of the ceramic substrate 11. The modification layer 12 contains a bismuth-based oxide and other components. The modification layer 12 is installed on a surface of the ceramic substrate 11, the compositions of the modification layer 12 are optimized, the bismuth-based oxide is added into the modification layer 12, and a lead-containing oxide in the prior art is replaced with the bismuth-based oxide, so that the modification layer 12 containing the bismuth-based oxide exhibits excellent performance. Accordingly, this configuration can lower a melting temperature of the modification layer 12 to expand a firing range, lower a thermal expansion coefficient of the modification layer 12, and improve thermal shock resistance and tensile deformation resistance so as to improve performance of the atomization core, and further improve performance of the atomizer.SELECTED DRAWING: Figure 1
【課題】熱衝撃抵抗性を向上させ、霧化コアの性能を高め、さらにアトマイザーの性能を高めたセラミックス、霧化コア及びアトマイザーを開示する。【解決手段】セラミックス10は、セラミックス基体11と、セラミックス基体11の表面に設けられる修飾層12とを含む。修飾層12は、ビスマス系酸化物及び他の成分を含む。セラミックス基体11の表面に修飾層12が設置されるとともに、修飾層12の組成物を最適化し、修飾層12内にビスマス系酸化物を添加し、従来技術の鉛含有酸化物をビスマス系酸化物に置き換え、ビスマス系酸化物を含有する修飾層12が優れた性能を有し、これにより、修飾層12の溶融温度を下げて焼成範囲を広げ、修飾層12の熱膨張係数を低減させ、熱衝撃抵抗性及び引張変形抵抗性を向上させ、霧化コアの性能を高め、さらにアトマイザーの性能を高める。【選択図】図1
CERAMIC, ATOMIZATION CORE AND ATOMIZER
To disclose a ceramic, an atomizing core and an atomizer improving thermal shock resistance so as to improve performance of the atomization core and performance of the atomizer.SOLUTION: A ceramic 10 includes a ceramic substrate 11 and a modification layer 12 disposed on a surface of the ceramic substrate 11. The modification layer 12 contains a bismuth-based oxide and other components. The modification layer 12 is installed on a surface of the ceramic substrate 11, the compositions of the modification layer 12 are optimized, the bismuth-based oxide is added into the modification layer 12, and a lead-containing oxide in the prior art is replaced with the bismuth-based oxide, so that the modification layer 12 containing the bismuth-based oxide exhibits excellent performance. Accordingly, this configuration can lower a melting temperature of the modification layer 12 to expand a firing range, lower a thermal expansion coefficient of the modification layer 12, and improve thermal shock resistance and tensile deformation resistance so as to improve performance of the atomization core, and further improve performance of the atomizer.SELECTED DRAWING: Figure 1
【課題】熱衝撃抵抗性を向上させ、霧化コアの性能を高め、さらにアトマイザーの性能を高めたセラミックス、霧化コア及びアトマイザーを開示する。【解決手段】セラミックス10は、セラミックス基体11と、セラミックス基体11の表面に設けられる修飾層12とを含む。修飾層12は、ビスマス系酸化物及び他の成分を含む。セラミックス基体11の表面に修飾層12が設置されるとともに、修飾層12の組成物を最適化し、修飾層12内にビスマス系酸化物を添加し、従来技術の鉛含有酸化物をビスマス系酸化物に置き換え、ビスマス系酸化物を含有する修飾層12が優れた性能を有し、これにより、修飾層12の溶融温度を下げて焼成範囲を広げ、修飾層12の熱膨張係数を低減させ、熱衝撃抵抗性及び引張変形抵抗性を向上させ、霧化コアの性能を高め、さらにアトマイザーの性能を高める。【選択図】図1
CERAMIC, ATOMIZATION CORE AND ATOMIZER
セラミックス、霧化コア及びアトマイザー
LI PEI (author) / LV HONGXIA (author) / JIANG ZHENLONG (author)
2023-11-01
Patent
Electronic Resource
Japanese
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