KR20180050626A - Method of cutting layered ceramic substrate - Google Patents

Abstract

The present invention divides a laminated ceramic substrate laminating a metal film on a ceramic substrate. A groove process is performed on the metal film (12) of the laminated ceramic substrate (10) along a planned scribe line by using a patterning tool. A scribe line is formed on the ceramic substrate (11) by a scribe device from a surface of the ceramic substrate (11) or a groove (12a) of the metal film (12) side. Therefore, the laminated ceramic substrate (10) can be completely divided by braking along the scribe line from the surface of the ceramic substrate (11) side.

Description

[0001] METHOD OF CUTTING LAYERED CERAMIC SUBSTRATE [0002]

The present invention relates to a method of cutting a laminated ceramic substrate in which a metal film is laminated on a ceramic substrate and a tool for grooving.

In the case of dividing a multilayer ceramic substrate in which a metal film is laminated on a conventional ceramic substrate, the multilayer ceramic substrate is often divided by using a dicing saw or the like. Patent Document 1 proposes a method of manufacturing a ceramic bonded substrate in which a ceramic substrate is scribed, a metal layer is bonded, and a metal layer of the scribe line is removed by etching and then breaking.

Japanese Patent Application Laid-Open No. 2009-252971

In the above-described Patent Document 1, scribing is required before the metal thin film is laminated on the ceramic substrate, and there is a problem that the laminated ceramic substrate already laminated is not divided.

A description will be given of a case where the multilayer substrate 100 in which the metal film 102 is laminated on the ceramic substrate 101 is scribed and broken as shown in Fig. 1 (a) for dividing the laminated multilayer ceramic substrate. First, as shown in Fig. 1 (b), scribing is performed on the surface of the ceramic substrate 101 with the scribing wheel 103, and the scribing is carried out from the ceramic substrate 101 side to the breaking bar 104 ) To brake. In this case, even if the ceramic substrate 101 can be separated, the metal film 102 is not separated, and therefore even if the braking is performed as shown in Fig. 1 (d), the metal film 102 remains without being separated, There is a problem that complete division can not be performed.

As another method, scribing is performed on the surface of the metal film 102 in the multilayer ceramic substrate 100 using the scribing wheel 103 as shown in Figs. 2A and 2B . Subsequently, as shown in Fig. 2 (c), even when the multilayer ceramic substrate is divided by using the break bar 104, a sufficient vertical crack is not formed in the metal film 102, and a vertical crack Is not generated. Therefore, there is a problem in that it is difficult to break, can not be separated, or is not separated into scribe lines as shown in Fig. 2 (d).

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a multilayer ceramic substrate in which a metal film is laminated on a ceramic substrate.

In order to solve this problem, a method for dividing a multilayer ceramic substrate of the present invention is a method for dividing a multilayer ceramic substrate in which a metal film is laminated on a ceramic substrate, comprising the steps of: And scribing is carried out from the surface of the ceramic substrate along the groove from which the metal film is removed, and the multilayer ceramic substrate is braked by aligning with the scribe line.

In order to solve this problem, a method for separating a multilayer ceramic substrate according to the present invention is a method for separating a multilayer ceramic substrate in which a metal film is laminated on a ceramic substrate, comprising the steps of: And grooves are formed on the metal film by the patterning tool from the surface of the metal film along the scribe line of the ceramic substrate to break the metal film by aligning the laminated ceramic substrate with the scribe line.

In order to solve this problem, a method for separating a multilayer ceramic substrate of the present invention is a method for separating a multilayer ceramic substrate in which a metal film is laminated on a ceramic substrate, comprising the steps of: And the scribing wheel is rotated with respect to the ceramic substrate along the groove from which the metal film is removed from the surface of the metal film to perform scribing and to break in accordance with the scribing line of the multilayer ceramic substrate.

The tool for grooving according to the present invention is a tool for grooving to remove a part of a metal film of a metal film laminated ceramic substrate which can be used for the above-described method of dividing a multilayer ceramic substrate, (a) a shape of a truncated cone, (b) a shape of a prism, or (c) a shape obtained by cutting the right and left sides of a prism shape.

Here, the scribe of the ceramic substrate may be scribed using a scribing wheel.

According to the present invention having such features, a multilayer ceramic substrate in which a metal film is laminated on a ceramic substrate is subjected to groove processing along a line to be scribed, and the metal film is removed in a strip shape. Then, the ceramic substrate is scribed from the surface of the ceramic substrate or from the groove of the metal film removed, and then the multilayer ceramic substrate is reversed to break. Therefore, the peeling of the metal film can be avoided, the individual can be completely separated into a desired shape, and the effect of improving the end face precision can be obtained.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a cutting process in the case of scribing and breaking from a ceramic substrate side of a multilayer ceramic substrate. Fig.
Fig. 2 is a view showing a state of scribing and breaking from the metal film side of the multilayer ceramic substrate. Fig.
Fig. 3 is a view showing the dividing treatment (grooving and scribing) of the multilayer ceramic substrate according to the first embodiment of the present invention. Fig.
4 is a view showing the division treatment (break) of the multilayer ceramic substrate according to the first embodiment of the present invention.
Fig. 5 is a view showing the dividing treatment (grooving and scribing) of the multilayer ceramic substrate according to the second embodiment of the present invention. Fig.
Fig. 6 is a diagram showing the division treatment (break) of the multilayer ceramic substrate according to the second embodiment of the present invention.
Fig. 7 is a diagram showing a patterning tool used for groove machining of a metal film used in the present embodiment. Fig.

(Mode for carrying out the invention)

≪ First Embodiment >

3 (a) is a view showing a laminated ceramic substrate 10 (hereinafter, simply referred to as a laminated substrate) to be subjected to division by the metal film 12 being applied to the ceramic substrate 11. Here, the ceramic substrate 11 may be an LTCC substrate, or a ceramic substrate such as alumina, aluminum nitride, barium titanate, or silicon nitride. The metal film 12 is a thin film of nickel, silver, gold, copper, platinum or the like, and has a thickness of, for example, 10 to 20 탆. At this time, the metal film 12 may have any pattern formed thereon. When the laminated substrate 10 is divided into a predetermined pattern, the metal film 12 is first removed with a patterning tool along a line to be scribed from the ceramic substrate as shown in Fig. 3 (b). This metal film can be removed by a scribing apparatus used as a groove processing tool of a solar cell, for example, a scribing apparatus of Japanese Unexamined Patent Application Publication No. 2011-216646, and a part of the metal film 12 is linearly patterned by a patterning tool 13). A sectional view at this time is shown in Fig. 3 (c). The width of the groove 12a is, for example, 25 to 200 占 퐉. The patterning tool 13 at this time may be a tool having a truncated cone shape as shown in Fig. 7 (a). Further, as shown in Fig. 7 (b), the blade may be a tool having a prism shape, and further, the tool may be a prism shape having left and right prisms cut out as shown in Fig. 7 (c). Further, not only the tip of the tool but also the entirety may be a rectangular prism shape.

Then, the grooved laminated substrate 10 is inverted as shown in Fig. 3 (d), and the ceramic substrate 11 is scribed along the planned scribing line. In this scribe, a scribing line S1 is formed by pressing a scribing wheel 14 with a constant load by a scribing device (not shown) and rolling it so as to penetrate the crack vertically. It is preferable that the scribing wheel used in this scribing is one capable of scribing with high penetration. Japanese Unexamined Patent Application Publication No. 3074143 proposes a scribing wheel in which a plurality of grooves are formed on a circumferential surface at a predetermined interval and a high penetration type is formed as a projection therebetween.

Subsequently, as shown in Fig. 4 (a), the laminated board 10 is reversed to place the tape 17 on the upper surfaces of the pair of support members 15, 16 of the braking device, and the support members 15, 16 And the scribe line is positioned in the middle of the substrate 10. Then, the brake bar 18 is pushed down from the upper portion along the scribe line S1 to break it. As a result, as shown in Fig. 4 (b), the laminated substrate can be completely divided along the scribe line, and the sectional accuracy can be improved. By dividing the multilayer ceramic substrate into a lattice shape, individual laminated substrate chips can be formed.

In this embodiment, scribing is performed by rolling the scribing wheel using the scribing apparatus in the step of Fig. 3 (d). Further, in the process of Fig. 4 (a), although the break is performed by using the brake device, in the case where the shape of the small piece to be divided is relatively large, the worker may be divided by hand. In this case, the tape 17 becomes unnecessary.

In this embodiment, as shown in Fig. 3 (b) and Fig. 3 (c), grooves are formed in the metal film, and then the ceramic film is inverted to scribe the ceramic surface. First, the ceramic surface is scribed, A groove may be formed in the metal film.

≪ Second Embodiment >

5A is a view showing a laminated ceramic substrate 10 (hereinafter, simply referred to as a laminated substrate) to be subjected to the division by the metal film 12 on the ceramic substrate 11. As shown in Fig. Here, the ceramic substrate 11 may be an LTCC substrate, or a ceramic substrate such as alumina, aluminum nitride, barium titanate, or silicon nitride. The metal film 12 is a thin film of nickel, silver, gold, copper, platinum or the like, and has a thickness of, for example, 10 to 20 탆. At this time, the metal film 12 may have any pattern formed thereon. When the laminated substrate 10 is divided into a predetermined pattern, first, as shown in Fig. 5 (b), along the line to be scribed from the ceramic substrate 11 side, With a patterning tool. This metal film can be removed by a scribing apparatus used as a groove processing tool of a solar cell, for example, a scribing apparatus of Japanese Unexamined Patent Application Publication No. 2011-216646, and a part of the metal film 12 is linearly patterned by a patterning tool 13). A sectional view at this time is shown in Fig. 5 (c). The width of the groove 12a is, for example, 25 to 200 占 퐉. The patterning tool 13 at this time may be a tool having a truncated cone shape as shown in Fig. 7 (a). Further, as shown in Fig. 7 (b), the blade may be a tool having a prism shape, and further, the tool may be a prism shape having left and right prisms cut out as shown in Fig. 7 (c). Further, not only the tip of the tool but also the entirety may be a rectangular prism shape.

Then, the ceramic substrate 11 on the inside of the strip-shaped groove 12a from which the metal film is removed from the surface of the formed metal film 12 is scribed. In this scribe, a scribing line S1 is formed by pressing a scribing wheel 14 with a constant load by a scribing device (not shown) and rolling it so as to penetrate the crack vertically. It is preferable that the scribing wheel used in this scribing be one capable of scribing with high penetration. Japanese Unexamined Patent Application Publication No. 3074143 proposes a scribing wheel in which a plurality of grooves are formed on a circumferential surface at a predetermined interval and a high penetration type is formed as a projection therebetween.

Subsequently, as shown in Fig. 6 (a), the laminated board 10 is reversed to place the tape 17 on the upper surfaces of the pair of support members 15, 16 of the braking device, and the support members 15, 16 And the scribe line is positioned in the middle of the substrate 10. Then, the brake bar 18 is pushed down from the upper portion along the scribe line S1 to break it. As a result, as shown in Fig. 6 (b), the laminated substrate can be completely divided along the scribe line, and the section accuracy can be improved. By dividing the multilayer ceramic substrate into a lattice shape, individual laminated substrate chips can be formed.

In this embodiment, as shown in Figs. 5 (b) and 5 (c), grooves are formed in the metal film, and then scribing is performed on the ceramic surface from the grooves of the metal. And it is possible to increase the working efficiency.

In this embodiment, scribing is performed by rolling the scribing wheel using the scribing device in the step of Fig. 5 (d). In the process of Fig. 6 (b), the brakes are used to break the brakes. However, in the case where the shape of each piece to be divided is relatively large, the worker may be divided by hand. In this case, the tape 17 becomes unnecessary.

A laminated substrate in which a metal film is laminated on a ceramic substrate can be easily separated by using a patterning tool and a scribing apparatus, and is effective for manufacturing a minute laminated substrate.

10: Laminated ceramic substrate
11: Ceramic substrate
12: metal film
12a: Home
13, 14: Scraping wheel
15, 16: Support member
17: tape
18: Brake bar

Claims (3)

A method of separating a multilayer ceramic substrate in which a metal film is laminated on a ceramic substrate,
Groove processing is performed on the metal film with the patterning tool along the planned scribing line of the multilayer ceramic substrate,
A scribe is vertically penetrated by a predetermined load from the surface of the ceramic substrate along the groove where the metal film is removed,
The laminated ceramic substrate was braked by aligning with the scribe line,
Wherein the scribing of the ceramic substrate is performed by using a scribing wheel. A method of separating a multilayer ceramic substrate in which a metal film is laminated on a ceramic substrate,
Scribing the cracks vertically through a surface of the ceramic substrate along a line to be scribed of the multilayer ceramic substrate by a constant load,
The metal film is grooved by the patterning tool from the surface of the metal film along the scribe line of the ceramic substrate,
And breaking the laminated ceramic substrate by aligning the laminated ceramic substrate with the scribe line. 3. The method of claim 2,
Wherein the scribing of the ceramic substrate is performed by using a scribing wheel.

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