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Wear-resistant super-hydrophobic ceramic structure for 3D printing as well as preparation method and application of wear-resistant super-hydrophobic ceramic structure
The invention relates to the technical field of super-hydrophobic materials, and particularly discloses a wear-resistant super-hydrophobic ceramic structure for 3D printing and a preparation method thereof.The wear-resistant super-hydrophobic ceramic structure comprises a base body, the base body comprises a wear-resistant supporting frame, and a plurality of micron-sized containing holes are distributed in the wear-resistant supporting frame; the accommodating hole is filled with a nanoscale super-hydrophobic material, and the accommodating hole is of an inverted cone-shaped structure or an inverted frustum-shaped structure which is wide outside and narrow inside. According to the wear-resistant super-hydrophobic ceramic structure, the nanoscale super-hydrophobic material is arranged in the micron-sized accommodating hole of the wear-resistant support frame, so that the overall durability and mechanical strength of the wear-resistant super-hydrophobic ceramic structure are effectively improved, and the service life of the water resistance and the self-cleaning property of the wear-resistant super-hydrophobic ceramic structure is prolonged; the wear-resistant super-hydrophobic ceramic structure is applied to the surface of a device, can provide durable and stable super-hydrophobic performance for the device, and endows the device with durable and stable self-cleaning performance and waterproofness.
本发明涉及超疏水材料技术领域,具体公开一种3D打印的耐磨超疏水陶瓷结构及其制备方法,该耐磨超疏水陶瓷结构包括基体,所述基体包括耐磨支撑架,所述耐磨支撑架上分布有若干微米级的容纳孔,所述容纳孔内填充有纳米级的超疏水材料,所述容纳孔呈外宽内窄的倒锥状结构或倒置锥台状结构。通过将纳米级超疏水材料内置于耐磨支撑架的微米级容纳孔内的方式,有效提高耐磨超疏水陶瓷结构整体的耐久性和机械强度,延长耐磨超疏水陶瓷结构的防水性、自清洁性的使用有效期,本实施例的耐磨超疏水陶瓷结构应用于器件表面,能够为器件提供持久、稳定的超疏水性能,赋予器件持久、稳定的自洁性、防水性。
Wear-resistant super-hydrophobic ceramic structure for 3D printing as well as preparation method and application of wear-resistant super-hydrophobic ceramic structure
The invention relates to the technical field of super-hydrophobic materials, and particularly discloses a wear-resistant super-hydrophobic ceramic structure for 3D printing and a preparation method thereof.The wear-resistant super-hydrophobic ceramic structure comprises a base body, the base body comprises a wear-resistant supporting frame, and a plurality of micron-sized containing holes are distributed in the wear-resistant supporting frame; the accommodating hole is filled with a nanoscale super-hydrophobic material, and the accommodating hole is of an inverted cone-shaped structure or an inverted frustum-shaped structure which is wide outside and narrow inside. According to the wear-resistant super-hydrophobic ceramic structure, the nanoscale super-hydrophobic material is arranged in the micron-sized accommodating hole of the wear-resistant support frame, so that the overall durability and mechanical strength of the wear-resistant super-hydrophobic ceramic structure are effectively improved, and the service life of the water resistance and the self-cleaning property of the wear-resistant super-hydrophobic ceramic structure is prolonged; the wear-resistant super-hydrophobic ceramic structure is applied to the surface of a device, can provide durable and stable super-hydrophobic performance for the device, and endows the device with durable and stable self-cleaning performance and waterproofness.
本发明涉及超疏水材料技术领域,具体公开一种3D打印的耐磨超疏水陶瓷结构及其制备方法,该耐磨超疏水陶瓷结构包括基体,所述基体包括耐磨支撑架,所述耐磨支撑架上分布有若干微米级的容纳孔,所述容纳孔内填充有纳米级的超疏水材料,所述容纳孔呈外宽内窄的倒锥状结构或倒置锥台状结构。通过将纳米级超疏水材料内置于耐磨支撑架的微米级容纳孔内的方式,有效提高耐磨超疏水陶瓷结构整体的耐久性和机械强度,延长耐磨超疏水陶瓷结构的防水性、自清洁性的使用有效期,本实施例的耐磨超疏水陶瓷结构应用于器件表面,能够为器件提供持久、稳定的超疏水性能,赋予器件持久、稳定的自洁性、防水性。
Wear-resistant super-hydrophobic ceramic structure for 3D printing as well as preparation method and application of wear-resistant super-hydrophobic ceramic structure
一种3D打印的耐磨超疏水陶瓷结构及其制备方法、应用
ZHU PENGFEI (author) / WANG FENG (author) / LYU WENJING (author)
2024-03-22
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
/
B33Y
ADDITIVE MANUFACTURING, i.e. MANUFACTURING OF THREE-DIMENSIONAL [3D] OBJECTS BY ADDITIVE DEPOSITION, ADDITIVE AGGLOMERATION OR ADDITIVE LAYERING, e.g. BY 3D PRINTING, STEREOLITHOGRAPHY OR SELECTIVE LASER SINTERING
,
Additive (generative) Fertigung, d. h. die Herstellung von dreidimensionalen [3D] Bauteilen durch additive Abscheidung, additive Agglomeration oder additive Schichtung, z. B. durch 3D- Drucken, Stereolithografie oder selektives Lasersintern
Super wear-resistant ceramic tube and preparation method thereof
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