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A platform for research: civil engineering, architecture and urbanism
Preparation method of ceramic structural part, ceramic structural part and electronic equipment
The invention relates to a preparation method of a ceramic structural part, the ceramic structural part and electronic equipment. The preparation method of the ceramic structural part comprises the following steps: a ceramic blank is obtained; multiple layers of antireflection films are arranged on the side where the inner surface of the ceramic blank is located in a stacked mode, and the refractive indexes of every two adjacent layers of antireflection films are distributed in a high-low mode to form an antireflection layer; and a colored paint coating is sprayed on one side, far away from the ceramic blank, of the antireflection layer. According to the preparation method of the ceramic structural part, the ceramic structural part and the electronic equipment, the colored paint coating issprayed to the side, where the inner surface of the ceramic blank is located, of the ceramic structural part, and the risk that the colored paint coating is prone to being abraded due to the fact that the colored paint coating is sprayed to the outer surface of the ceramic blank is avoided; and the risk that the colored paint coating arranged on the outer surface of the ceramic blank influences the appearance texture and the touch hand feeling of the ceramic blank is avoided. In addition, the antireflection layer is arranged between the ceramic blank and the colored paint coating, so that thetransmittance of the ceramic blank can be improved, and the color saturation of the ceramic blank is effectively improved.
本申请涉及一种陶瓷结构件的制备方法、陶瓷结构件及电子设备,陶瓷结构件的制备方法包括以下步骤:获取陶瓷坯体;在陶瓷胚体的内表面所在一侧层叠设置多层增透膜,并使相邻两层增透膜的折射率呈现高低分布以形成增透层;以及在增透层远离陶瓷胚体的一侧喷涂色漆涂层。本申请实施例的陶瓷结构件的制备方法、陶瓷结构件及电子设备,在陶瓷胚体的内表面所在一侧喷涂色漆涂层,避免了在陶瓷胚体的外表面喷涂色漆涂层而使得色漆涂层易遭受磨损的风险,且避免了设置在陶瓷胚体外表面的色漆涂层影响陶瓷胚体的外观质感和触摸手感的风险。另外,增透层设置于陶瓷胚体与色漆涂层之间,可以提高陶瓷胚体的透过率,从而有效提升陶瓷胚体的颜色饱和度。
Preparation method of ceramic structural part, ceramic structural part and electronic equipment
The invention relates to a preparation method of a ceramic structural part, the ceramic structural part and electronic equipment. The preparation method of the ceramic structural part comprises the following steps: a ceramic blank is obtained; multiple layers of antireflection films are arranged on the side where the inner surface of the ceramic blank is located in a stacked mode, and the refractive indexes of every two adjacent layers of antireflection films are distributed in a high-low mode to form an antireflection layer; and a colored paint coating is sprayed on one side, far away from the ceramic blank, of the antireflection layer. According to the preparation method of the ceramic structural part, the ceramic structural part and the electronic equipment, the colored paint coating issprayed to the side, where the inner surface of the ceramic blank is located, of the ceramic structural part, and the risk that the colored paint coating is prone to being abraded due to the fact that the colored paint coating is sprayed to the outer surface of the ceramic blank is avoided; and the risk that the colored paint coating arranged on the outer surface of the ceramic blank influences the appearance texture and the touch hand feeling of the ceramic blank is avoided. In addition, the antireflection layer is arranged between the ceramic blank and the colored paint coating, so that thetransmittance of the ceramic blank can be improved, and the color saturation of the ceramic blank is effectively improved.
本申请涉及一种陶瓷结构件的制备方法、陶瓷结构件及电子设备,陶瓷结构件的制备方法包括以下步骤:获取陶瓷坯体;在陶瓷胚体的内表面所在一侧层叠设置多层增透膜,并使相邻两层增透膜的折射率呈现高低分布以形成增透层;以及在增透层远离陶瓷胚体的一侧喷涂色漆涂层。本申请实施例的陶瓷结构件的制备方法、陶瓷结构件及电子设备,在陶瓷胚体的内表面所在一侧喷涂色漆涂层,避免了在陶瓷胚体的外表面喷涂色漆涂层而使得色漆涂层易遭受磨损的风险,且避免了设置在陶瓷胚体外表面的色漆涂层影响陶瓷胚体的外观质感和触摸手感的风险。另外,增透层设置于陶瓷胚体与色漆涂层之间,可以提高陶瓷胚体的透过率,从而有效提升陶瓷胚体的颜色饱和度。
Preparation method of ceramic structural part, ceramic structural part and electronic equipment
陶瓷结构件的制备方法、陶瓷结构件及电子设备
ZHAO YANFENG (author)
2021-01-12
Patent
Electronic Resource
Chinese
| European Patent Office | 2023
| European Patent Office | 2021
| European Patent Office | 2021
Manufacturing method of ceramic structural part and electronic equipment
| European Patent Office | 2021
Manufacturing method of ceramic part, ceramic part and electronic equipment
| European Patent Office | 2023