A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Battery cover manufacturing method and mobile terminal
The invention relates to a battery cover manufacturing method and a mobile terminal, and the battery cover manufacturing method comprises the steps: S110, processing a ceramic plate which comprises afirst surface and a second surface which are arranged oppositely, and a side surface connected with the first surface and the second surface; S120, performing surface wire drawing treatment on the side surface; and S130, coating the side surface with an adhesive, subjecting the portion coated with the adhesive to injection molding through a high polymer material to form a bent edge portion, and bending the bent edge portion towards the second surface to define a containing space with the ceramic plate. A better bonding surface is formed between the ceramic plate and the high polymer material by the adhesive, so that a better hand feeling is formed; the adhesive process is stable, and after the side surface is uniformly coated with the adhesive , the binding force between the ceramic plateand the high polymer material is stable and consistent, and the ceramic plate is not easy to deteriorate during normal-temperature storage. Textures can be increased through wiredrawing treatment, thedrawing force between the two can be improved, and the contact area between the two is increased; filling of high polymer materials is facilitated through wiredrawing treatment, seams between the high polymer materials and the ceramic plate are reduced, and the hand feeling is smooth.
本申请涉及一种电池盖的制作方法和移动终端,电池盖的制作方法包括:S110,加工陶瓷板,陶瓷板包括相背设置的第一表面和第二表面,以及连接第一表面和第二表面的侧面;S120,将侧面进行表面拉丝处理;S130,在侧面涂胶黏剂,在涂有胶黏剂的部位采用高分子材料进行注塑形成弯边部,弯边部向第二表面弯曲与陶瓷板围成容置空间。胶黏剂使陶瓷板和高分子材料之间形成较好的结合面,形成较好的手感;胶黏剂工艺稳定,侧面均匀涂胶黏剂后,陶瓷板和高分子材料之间的结合力稳定一致,常温保存不易变质。拉丝处理能增加纹理,可提升二者之间的拉拔力,增加二者的接触面积;拉丝处理有利于高分子材料的充填,减小高分子材料与陶瓷板的接缝,手感顺滑。
Battery cover manufacturing method and mobile terminal
The invention relates to a battery cover manufacturing method and a mobile terminal, and the battery cover manufacturing method comprises the steps: S110, processing a ceramic plate which comprises afirst surface and a second surface which are arranged oppositely, and a side surface connected with the first surface and the second surface; S120, performing surface wire drawing treatment on the side surface; and S130, coating the side surface with an adhesive, subjecting the portion coated with the adhesive to injection molding through a high polymer material to form a bent edge portion, and bending the bent edge portion towards the second surface to define a containing space with the ceramic plate. A better bonding surface is formed between the ceramic plate and the high polymer material by the adhesive, so that a better hand feeling is formed; the adhesive process is stable, and after the side surface is uniformly coated with the adhesive , the binding force between the ceramic plateand the high polymer material is stable and consistent, and the ceramic plate is not easy to deteriorate during normal-temperature storage. Textures can be increased through wiredrawing treatment, thedrawing force between the two can be improved, and the contact area between the two is increased; filling of high polymer materials is facilitated through wiredrawing treatment, seams between the high polymer materials and the ceramic plate are reduced, and the hand feeling is smooth.
本申请涉及一种电池盖的制作方法和移动终端,电池盖的制作方法包括:S110,加工陶瓷板,陶瓷板包括相背设置的第一表面和第二表面,以及连接第一表面和第二表面的侧面;S120,将侧面进行表面拉丝处理;S130,在侧面涂胶黏剂,在涂有胶黏剂的部位采用高分子材料进行注塑形成弯边部,弯边部向第二表面弯曲与陶瓷板围成容置空间。胶黏剂使陶瓷板和高分子材料之间形成较好的结合面,形成较好的手感;胶黏剂工艺稳定,侧面均匀涂胶黏剂后,陶瓷板和高分子材料之间的结合力稳定一致,常温保存不易变质。拉丝处理能增加纹理,可提升二者之间的拉拔力,增加二者的接触面积;拉丝处理有利于高分子材料的充填,减小高分子材料与陶瓷板的接缝,手感顺滑。
Battery cover manufacturing method and mobile terminal
电池盖的制作方法和移动终端
HUANG MAOZHAO (author) / YU HOUHUI (author)
2020-09-11
Patent
Electronic Resource
Chinese
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