KR20210103947A - ceramic back cover for mobile device and manufacturing method thereof - Google Patents

Abstract

A ceramic back cover for a mobile device and a manufacturing method thereof are provided. According to the present invention, the manufacturing method of the ceramic back cover for a mobile device comprises: a first step of preparing a flat ceramic sheet; a second step of firing the ceramic sheet; a third step of processing the fired ceramic sheet; and a fourth step of forming a portion of an edge of the processed ceramic sheet to be a curved surface. Thereby, control of a ceramic shape is advantageous by firing the flat ceramic sheet, permittivity control is possible, and processing features are excellent by processing the flat ceramic sheet.

Description

Ceramic back cover for mobile and manufacturing method thereof

The present invention relates to a ceramic back cover for mobile and a method of manufacturing the same, and more particularly, to a ceramic back cover for mobile that is advantageous in controlling the shape of the ceramic, controllable dielectric constant, and excellent workability, and a method of manufacturing the same .

The mobile device is composed of a body equipped with various electronic components and a liquid crystal such as a touch screen on the front, and a battery is combined on the back of the body.

In addition, a back cover for protecting the rear surface of the body and the battery is combined to form an exterior.

The back cover of a mobile device, which was a conventional metal material, is recently mainly made of a ceramic material.

The reason for evolving into a ceramic material is that it has excellent durability, corrosion resistance and abrasion resistance, excellent heat dissipation and dissipation, and good wireless charging efficiency compared to metal materials.

It also serves to enhance the aesthetic image given to the user.

Existing back covers for mobile devices using ceramics are bulk-molded by powder press or CIM (Ceramic Injection Molding) after a mixing operation of blending a polymer with ceramic power, It is by a process of removing (burn out) the binder in the bulk-molded state and then sintering. After that, the back cover is finally manufactured through a polished polishing operation after machining by CNC machining or the like.

Since the conventional back cover using such a ceramic undergoes a firing and/or processing process after molding, it is difficult to control the shape of the ceramic, but also has a limit in controlling the dielectric constant, and it is difficult to process and takes a long processing time. have.

Therefore, in manufacturing the ceramic back cover for mobile, it is advantageous to control the ceramic shape, control the dielectric constant, and have excellent processability and durability, as well as the development of a technology that can reduce the production cost. It is an urgent situation.

Korean Patent Publication No. 10-2015-0065343

The present invention has been devised in view of the above points, and in manufacturing a ceramic back cover for mobile using ceramic, by firing a flat ceramic sheet, it is advantageous to control the ceramic shape and to control the dielectric constant, An object of the present invention is to provide a method for manufacturing a ceramic back cover for mobile use with excellent workability by processing a flat ceramic sheet.

In addition, another object of the present invention is to provide a method of manufacturing a ceramic back cover for mobiles, which is easy to form a curved surface even in a state in which the ceramic sheet is fired.

In addition, the present invention provides a method of manufacturing a ceramic back cover for mobile that can reduce the production cost by simplifying the manufacturing method of the ceramic back cover for mobile, and further improve durability by overcoming the limit of brittleness of ceramic. There is another purpose.

In order to solve the above problems, the present invention provides a first step of preparing a flat ceramic sheet; a second step of firing the ceramic sheet; a third step of processing the fired ceramic sheet; and a fourth step of forming a curved surface of a portion of an edge of the processed ceramic sheet; It provides a method of manufacturing a ceramic back cover for mobile comprising a.

In addition, the processing of the third step may be performed by at least one process selected from a surface polishing process and a polishing process.

In addition, the curved surface molding in the fourth step may be performed at a temperature of 900 ~ 1500 ℃ for 5 ~ 100 minutes.

In addition, the curved surface molding in the fourth step may be performed using a graphite mold under a reducing atmosphere or an alumina mold under an oxidizing atmosphere, and the curved surface may be formed by a load pressure or a warm isostatic press.

In addition, between the first step and the second step, a binder removal step of burning out the binder included in the ceramic sheet; may further include.

In addition, the method for manufacturing a ceramic back cover for mobile of the present invention includes a fifth step of heterogeneously bonding a reinforcing member to a curved ceramic sheet; may further include.

In addition, the heterojunction can be performed for 1 to 60 minutes at a temperature of 100 ~ 1000 ℃, and ^{a pressure of 1 ~ 100kgf / cm 2 .}

In addition, the reinforcing member may include at least one selected from tempered glass, polymer, metal, and a different type of ceramic material different from the aforementioned ceramic sheet.

Also, the surface of the ceramic sheet may be modified.

In addition, the ceramic sheet may have a thickness of 0.05 to 0.3 mm.

In addition, the reinforcing member may have a thickness of 0.15 to 0.4 mm.

In addition, the curved surface molding in the fourth step is performed using a graphite mold under a nitrogen atmosphere with a warm isostatic press that applies a pressing load of 800 g, 180 ~ at a temperature of 900 ~ 1100 ° C. It may include a first temperature maintaining period performed for 220 minutes, and a second temperature maintaining period performed for 15 to 100 minutes at a temperature of 1150 to 1500° C. after the first temperature maintaining period.

In addition, the temperature increase rate from the first temperature maintaining section to the second temperature maintaining section may be 5.0 ~ 15.0 °C / min.

On the other hand, the present invention includes a ceramic back cover for mobile manufactured by the method of manufacturing the ceramic back cover for mobile of the present invention described above.

According to the present invention, in manufacturing a ceramic back cover for mobile using a ceramic, it is advantageous to control the ceramic shape by firing the flat ceramic sheet, and not only the dielectric constant can be controlled, but also the workability is improved by processing the flat ceramic sheet. great.

In addition, in the present invention, since the ceramic sheet fired under optimum conditions is formed to have a curved shape, it is easy to form a curved surface even in a fired state of the ceramic sheet.

In addition, the present invention can not only reduce the production cost by simplifying the manufacturing method of the ceramic back cover for mobile use, but also has excellent durability by overcoming the limit of brittleness of the ceramic by heterogeneously bonding the reinforcing member to the ceramic.

1 is a view showing a ceramic sheet before curved surface molding in the fourth step of a method for manufacturing a ceramic back cover for mobile according to an embodiment of the present invention;
2 is a view showing a ceramic sheet after curved surface molding in the fourth step of the method for manufacturing a ceramic back cover for mobile according to an embodiment of the present invention;
3 is a graph showing the temperature and time conditions at the time of forming a curved surface in the fourth step of the method for manufacturing a ceramic back cover for mobile according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and the same reference numerals are added to the same or similar elements throughout the specification.

The method of manufacturing a ceramic back cover for mobile of the present invention includes first to fourth steps.

First, in the first step of the method for manufacturing a ceramic back cover for mobile of the present invention, a flat ceramic sheet may be prepared.

In this case, the flat ceramic sheet may be formed into a flat ceramic sheet using ceramic powder, and such molding may be performed by tape casting. This is done by mixing ceramic powder with a liquid solvent such as alcohol or water to make a slurry, and this slurry is passed through a tape caster to a base tape (such as stainless steel tape, oil paper tape, MYLAR or ACLAR). A flat ceramic sheet can be obtained by spreading it thinly on top of the polymer tape), blowing off the solvent, and then peeling it off the base tape.

In addition, the ceramic powder may include any material that does not conduct electricity well and withstands high temperatures well, and preferably includes zirconia (Zr).

Next, in the second step of the method of manufacturing the ceramic back cover for mobile of the present invention, the flat ceramic sheet prepared in the first step may be fired. Firing is a process of densifying a three-dimensionally three-dimensional flat ceramic sheet. Through this firing process, characteristics such as durability that the ceramic back cover for mobile of the present invention should have can be controlled. As described above, in the method of manufacturing a ceramic back cover for mobile of the present invention, since firing is performed in a flat state before the curved surface forming of the flat ceramic sheet is performed, the control of the ceramic shape is advantageous and the control of the dielectric constant can be advantageous.

In addition, the second step of sintering may be performed at a temperature of 900 to 1500° C. for 30 to 600 minutes.

On the other hand, after performing the first step of the method for manufacturing a ceramic back cover for mobile of the present invention, before performing the second step, a binder for burning out the binder contained in the flat ceramic sheet prepared in the first step The removal step may be further included.

Next, in the third step of the method of manufacturing the ceramic back cover for mobile of the present invention, the ceramic sheet fired in the second step may be processed. As such, the method of manufacturing a ceramic back cover for mobile of the present invention may be excellent in workability because it is processed in a flat state before proceeding with the curved surface molding of the ceramic sheet later.

In the third step, one or more processes selected from a surface polishing process and a polishing process may be performed, and preferably a surface polishing process and a polishing process may be performed.

In this case, the surface polishing process is a process for glossing the surface of the fired ceramic sheet, and lapping, polishing, diamond mechanical polishing (DMP), and chemical mechanical polishing (CMP) may be performed.

In addition, the polishing process is a process for planarizing the surface of the fired ceramic sheet, and dry or wet barrel polishing, sand blasting, diamond mechanical polishing (DMP), or chemical mechanical polishing (CMP) may be performed.

Finally, in the fourth step of the method of manufacturing the ceramic back cover for mobile of the present invention, a portion of the edge of the ceramic sheet processed in the third step may be curved. In other words, the opposite ends of the ceramic sheet processed in the third step may be curved, and as another surface, the rear shape of the back cover rounded along both ends of the ceramic sheet by the curved forming in the fourth step. can be molded into (see FIGS. 1 and 2).

In addition, the curved surface molding of the fourth step can be performed for 5 to 300 minutes at a temperature of 900 ~ 1500 ℃, if the molding temperature is less than 900 ℃ there may be a problem that may not be sufficiently molded, exceeding 1500 ℃ Otherwise, the growth of the grain will become coarse, which may cause deterioration of properties.

In addition, the curved surface forming in the fourth step may be performed in a reducing atmosphere, an oxidizing atmosphere, or an atmospheric atmosphere.

In addition, the curved surface forming in the fourth step can be performed with a pressing load of 100g ~ 10,000g.

In addition, the curved surface molding in the fourth step can be performed by using a graphite mold under a reducing atmosphere to apply a load pressure or by a warm isostatic press, and through this, a portion of the edge of the ceramic sheet is turned into a curved surface. can be molded. If, when performing curved molding using a graphite mold, if the process is carried out in an oxidizing atmosphere rather than a reducing atmosphere, graphite is oxidized and the mold life may be reduced.

In addition, the curved surface molding in the fourth step can be performed by using an alumina mold under an oxidizing atmosphere and using a load pressure or a warm isostatic press to form a curved surface, through which a portion of the edge of the ceramic sheet is turned into a curved surface. can be molded. If, when performing curved molding using an alumina mold, it is performed in a reducing atmosphere instead of an oxidizing atmosphere, there may be problems such as color and characteristic change.

On the other hand, specifically, referring to FIG. 3 , the curved surface molding in the fourth step is performed by using a graphite mold under a nitrogen atmosphere and using a warm isostatic press to apply a pressing load of 800 g. hour, 900 ~ 1100 ℃, preferably 950 ~ 1050 ℃ 180 ~ 220 minutes, preferably 190 ~ 210 minutes at a temperature of the first temperature maintenance section (a), and after the first temperature maintenance section 1150 ~ 1500 ℃, preferably at a temperature of 1200 ~ 1300 ℃ 15 ~ 100 minutes, preferably may include a second temperature holding period carried out for 70 ~ 90 minutes. As such, when performing the curved surface forming in the fourth step, if the curved forming is performed by varying the temperature and time, the curved forming can be easily performed even in a fired state of the ceramic sheet. If the temperature is less than 900° C. in the first temperature maintenance section, there may be a problem in that the formability is not ensured, so that the curved surface is not formed and cracks are generated in the curved portion. In addition, when the temperature exceeds 1500° C. in the second temperature holding period, there may be a problem in that properties are deteriorated due to grain growth.

In addition, the temperature increase rate from the first temperature holding section to the second temperature holding section may be 5.0 to 15.0 °C/min, preferably 7.0 to 10.0 °C/min.

Furthermore, if the ceramic back cover for mobile is manufactured by the method for manufacturing the ceramic back cover for mobile including the first to fourth steps of the present invention, it is advantageous to control the ceramic shape, control the dielectric constant, and improve the workability. However, due to the strong brittleness of the ceramic material, there is a concern that it may be easily broken by impact.

Therefore, in order to solve this problem, the method of manufacturing a ceramic back cover for mobile of the present invention may further include a fifth step of heterogeneously bonding a reinforcing member to the ceramic sheet formed in a curved surface in the fourth step.

In this case, the heterojunction may be performed at a temperature of 100 to 1000° C. and ^{a pressure of 1 to 100 kgf/cm 2} for 1 to 60 minutes.

In addition, the reinforcing member may include at least one selected from among tempered glass, polymer, metal, and other ceramic materials different from the aforementioned ceramic sheet, preferably tempered glass.

Meanwhile, the surface of the ceramic sheet may be modified to improve bonding strength with the reinforcing member. In this case, the surface of the ceramic sheet may be modified by etching, plasma treatment, or porous surface treatment, through which the surface area of the ceramic sheet may be increased to improve bonding strength with the reinforcing member.

Furthermore, when the reinforcing member is heterogeneously bonded to the ceramic sheet, the thickness of the ceramic sheet may be 0.05 ~ 0.3 mm, preferably 0.08 ~ 0.2 mm, and if the thickness is less than 0.05 mm, there is a problem in handling and surface polishing There may be, and if it exceeds 0.3mm, there may be a problem that the overall thickness becomes thick. In addition, when the reinforcing member is heterogeneously bonded to the ceramic sheet, the thickness of the reinforcing member may be 0.15 to 0.4 mm, preferably 0.25 to 0.4 mm, and if the thickness is less than 0.25 mm, there is a problem in the role of the reinforcing member. There may be, and if it exceeds 0.4 mm, there may be a problem of increasing the thickness of the heterojunction.

Although one embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiments presented herein, and those skilled in the art who understand the spirit of the present invention can add components within the scope of the same spirit. , changes, deletions, additions, etc. may easily suggest other embodiments, but this will also fall within the scope of the present invention.

Claims (13)

A first step of preparing a flat ceramic sheet;
a second step of firing the ceramic sheet;
a third step of processing the fired ceramic sheet; and
a fourth step of forming a curved surface of a portion of the edge of the processed ceramic sheet;
A method of manufacturing a ceramic back cover for mobile, comprising a. The method of claim 1
The third step processing is a method of manufacturing a ceramic back cover for mobile, characterized in that performing at least one process selected from a surface polishing process and a polishing process. According to claim 1,
The method for manufacturing a ceramic back cover for mobile, characterized in that the curved surface molding in the fourth step is performed for 5 to 100 minutes at a temperature of 900 to 1500 ℃. 4. The method of claim 3,
In the fourth step, the curved surface molding is performed using a graphite mold under a reducing atmosphere or an alumina mold under an oxidizing atmosphere to form a curved surface by load pressure or warm isostatic press. A method for manufacturing a ceramic back cover. The method of claim 1 , wherein between the first and second steps
a binder removal step of burning out the binder included in the ceramic sheet;
A method of manufacturing a ceramic back cover for mobile, characterized in that it further comprises a. According to claim 1,
a fifth step of heterogeneously bonding a reinforcing member to the curved ceramic sheet;
A method of manufacturing a ceramic back cover for mobile, characterized in that it further comprises a. 7. The method of claim 6,
The heterojunction is a method of manufacturing a ceramic back cover for mobile, characterized in that performed for 1 to 60 minutes at a temperature of 100 ~ 1000 ℃, 1 ~ 100kgf / cm ^{2 pressure.} 7. The method of claim 6,
The reinforcing member is a method of manufacturing a ceramic back cover for mobile, characterized in that it comprises at least one selected from among tempered glass, polymer, metal, and a different type of ceramic material different from the ceramic sheet. 7. The method of claim 6,
The ceramic sheet is a method of manufacturing a ceramic back cover for mobile, characterized in that the surface is modified. 7. The method of claim 6,
The ceramic sheet has a thickness of 0.05 to 0.3 mm,
The method of manufacturing a ceramic back cover for mobile, characterized in that the reinforcing member has a thickness of 0.15 ~ 0.4 mm. 5. The method of claim 4,
In the fourth step, the curved surface molding is performed by using a graphite mold under a nitrogen atmosphere and using a warm isostatic press to apply a pressing load of 800 g. A method of manufacturing a ceramic back cover for mobile, comprising: a first temperature maintaining period performed for minutes; and a second temperature maintaining period performed for 15 to 100 minutes at a temperature of 1150 to 1500° C. after the first temperature maintaining period . 6. The method of claim 5,
The method of manufacturing a ceramic back cover for mobile, characterized in that the temperature increase rate from the first temperature maintaining section to the second temperature maintaining section is 5.0 ~ 15.0 °C / min. [Claim 13] A ceramic back cover for mobile manufactured by the method for manufacturing a ceramic back cover for mobile according to any one of claims 1 to 12.

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