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A platform for research: civil engineering, architecture and urbanism
Atomizing core, preparation method thereof and atomizing device
The invention discloses an atomization core, a preparation method thereof and an atomization device, and belongs to the technical field of atomization. The preparation method comprises the steps that raw materials and a solvent are mixed to obtain ceramic slurry, and the raw materials comprise aggregate, glass powder, a pore forming agent, an anti-cracking agent and hollow glass beads; forming the ceramic slurry into a liquid guide piece blank, and embedding the heating piece and the liquid guide piece blank to obtain an atomizing core blank; and carrying out multi-stage sintering on the atomizing core green body under a preset temperature rising condition to obtain the atomizing core. According to the preparation method provided by the invention, the anti-cracking agent and the hollow glass beads are added into the raw materials, and the anti-cracking agent can reduce cracks of the ceramic in the sintering process and reduce the chapping risk of the atomizing core in the using process; after the hollow glass beads are sintered, part of sphere shapes are not completely damaged, so that the oil guide performance of the liquid guide piece can be improved, and core pasting and carbon deposition are prevented; and through multi-stage sintering, cracks caused by rapid decomposition of a large amount of organic matter are prevented, and the service life of the atomization core is further prolonged.
本申请公开了一种雾化芯及其制备方法、雾化装置,属于雾化技术领域。制备方法包括:将原料与溶剂混合得到陶瓷浆料,其中,所述原料包括骨料、玻璃粉、造孔剂、抗裂剂以及中空玻璃微珠;将陶瓷浆料成型为导液件坯体,并将加热件与导液件坯体嵌合得到雾化芯坯体;以预设的升温条件对雾化芯坯体进行多阶段烧结得到雾化芯。本申请所提供的制备方法,原料中添加有抗裂剂以及中空玻璃微珠,抗裂剂可降低陶瓷在烧结过程中的裂纹,并降低雾化芯使用过程中的皲裂风险;中空玻璃微珠在烧结后一部分球体形态未完全破坏,可以提升导液件的导油性能,防止糊芯积碳;通过多阶段烧结,防止大量有机物快速分解导致的裂纹,进一步提升雾化芯的使用寿命。
Atomizing core, preparation method thereof and atomizing device
The invention discloses an atomization core, a preparation method thereof and an atomization device, and belongs to the technical field of atomization. The preparation method comprises the steps that raw materials and a solvent are mixed to obtain ceramic slurry, and the raw materials comprise aggregate, glass powder, a pore forming agent, an anti-cracking agent and hollow glass beads; forming the ceramic slurry into a liquid guide piece blank, and embedding the heating piece and the liquid guide piece blank to obtain an atomizing core blank; and carrying out multi-stage sintering on the atomizing core green body under a preset temperature rising condition to obtain the atomizing core. According to the preparation method provided by the invention, the anti-cracking agent and the hollow glass beads are added into the raw materials, and the anti-cracking agent can reduce cracks of the ceramic in the sintering process and reduce the chapping risk of the atomizing core in the using process; after the hollow glass beads are sintered, part of sphere shapes are not completely damaged, so that the oil guide performance of the liquid guide piece can be improved, and core pasting and carbon deposition are prevented; and through multi-stage sintering, cracks caused by rapid decomposition of a large amount of organic matter are prevented, and the service life of the atomization core is further prolonged.
本申请公开了一种雾化芯及其制备方法、雾化装置,属于雾化技术领域。制备方法包括:将原料与溶剂混合得到陶瓷浆料,其中,所述原料包括骨料、玻璃粉、造孔剂、抗裂剂以及中空玻璃微珠;将陶瓷浆料成型为导液件坯体,并将加热件与导液件坯体嵌合得到雾化芯坯体;以预设的升温条件对雾化芯坯体进行多阶段烧结得到雾化芯。本申请所提供的制备方法,原料中添加有抗裂剂以及中空玻璃微珠,抗裂剂可降低陶瓷在烧结过程中的裂纹,并降低雾化芯使用过程中的皲裂风险;中空玻璃微珠在烧结后一部分球体形态未完全破坏,可以提升导液件的导油性能,防止糊芯积碳;通过多阶段烧结,防止大量有机物快速分解导致的裂纹,进一步提升雾化芯的使用寿命。
Atomizing core, preparation method thereof and atomizing device
雾化芯及其制备方法、雾化装置
LI ZHIPENG (author) / CHEN ZHICHAO (author) / ZHANG YILI (author) / DENG MALIANG (author) / LIAO WEI (author) / FU YAO (author)
2025-01-07
Patent
Electronic Resource
Chinese
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