CN113121116A - Microcrystalline glass solder, preparation method thereof and method for connecting alumina ceramics - Google Patents

Abstract

The invention discloses a microcrystalline glass solder, which comprises 15-20 wt% of CaO and Al₂O₃ 10～25wt％、SiO₂ 50～55wt％、ZnO 5～10wt％、B₂O₃5-10 wt%; the glass thermal expansion coefficient of the microcrystalline glass solder is 5.9-6.5 multiplied by 10 at the temperature of 25-700 DEG C^‑6V. C. In addition, a preparation method of the microcrystalline glass solder and a method for connecting the alumina ceramics are also disclosed. The microcrystalline glass solder is matched with the thermal expansion coefficient of the alumina ceramic base material and has proper connection temperature, thereby realizing low-temperature connection of alumina ceramic, reducing the process difficulty of alumina ceramic connection and improving the quality of alumina ceramicThe strength of the joint at room temperature is improved, no defects such as air hole cracks exist, and the connection quality of the alumina ceramic is effectively improved.

Description

Microcrystalline glass solder, preparation method thereof and method for connecting alumina ceramics

Technical Field

The invention relates to the technical field of alumina ceramic connection, in particular to a microcrystalline glass solder, a preparation method thereof and a method for connecting alumina ceramic.

Background

The alumina ceramic has the advantages of high mechanical strength, small dielectric loss, large insulation resistance, high hardness, wear resistance, corrosion resistance, high temperature resistance and the like, and is widely applied to various fields of aviation, military, machinery, petroleum, chemical engineering, electronics and the like. However, due to the intrinsic brittleness and difficulty in machining of ceramic materials, alumina ceramics are difficult to prepare into components with large size and complex shape, and thus the application range is greatly limited. In order to construct alumina ceramic parts with complex shapes and large sizes, a connection technology is needed, and simple structural parts are combined into a component with a complex shape, so that the method has important significance for reducing the production cost and expanding the application range of the component.

Among various techniques for connecting ceramic materials, the use of microcrystalline glass as a connecting material is a simple and easy and inexpensive connecting method. The microcrystalline glass connecting material has excellent chemical compatibility with ceramics, and the strength of the microcrystalline glass connecting material can be improved through certain crystallization. However, the microcrystalline glass solder in the prior art generally has the problems of higher melting point and poor matching property with the thermal expansion coefficient of the alumina ceramic, so that the process difficulty of ceramic connection is increased, defects of pore cracks and the like are caused, and the mechanical property of a joint and the connection quality of the alumina ceramic are greatly influenced. Therefore, it is necessary to prepare the microcrystalline glass solder which is suitable for connecting the alumina ceramics at low temperature and is matched with the thermal expansion coefficient of the alumina ceramics.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a microcrystalline glass solder which is matched with the thermal expansion coefficient of an alumina ceramic base material and has proper connection temperature through formula design, so that low-temperature connection of alumina ceramic is realized. The invention also aims to provide a preparation method of the microcrystalline glass solder and a method for connecting the alumina ceramics.

The purpose of the invention is realized by the following technical scheme:

the invention provides a microcrystalline glass solder, which comprises 15-20 wt% of CaO and Al₂O₃10～25wt％、SiO₂50～55wt％、ZnO 5～10wt％、B₂O₃5-10 wt%; the glass thermal expansion coefficient of the microcrystalline glass solder is 5.9-6.5 multiplied by 10 at the temperature of 25-700 DEG C^-6/℃。

The other purpose of the invention is realized by the following technical scheme:

the preparation method of the microcrystalline glass solder provided by the invention comprises the following steps:

(1) ball milling mixing material

According to the chemical composition ratio, CaCO is used₃、Al₂O₃、SiO₂、ZnO、H₃BO₃Weighing raw materials, and mixing by wet ball milling to obtain a mixed material;

(2) melting and cold quenching

Drying, grinding and sieving the mixed material, then carrying out melting treatment, and immediately carrying out cold quenching treatment on the melted melt material to obtain glass frit;

(3) ball milling into powder

Crushing the glass frit by a dry ball mill, and sieving to obtain CaO-Al₂O₃-SiO₂-ZnO-B₂O₃And (3) microcrystalline glass solder.

Further, in the preparation method, in the step (2), the drying temperature is 80-110 ℃, and the drying time is 6-12 hours; the melting temperature is 1400-1550 ℃, and the melting time is 1-3 h. The rotating speed of the dry ball mill in the step (3) is 1000-1400 r/min, and the ball milling time is 5-60 min.

The invention provides a method for connecting alumina ceramics by adopting the microcrystalline glass solder, which comprises the following steps:

(1) grinding and polishing the surfaces to be connected of the aluminum oxide ceramics to-be-welded pieces;

(2) mixing the microcrystalline glass solder with a polyvinyl alcohol aqueous solution with the concentration of 9 wt%, and then granulating and pressing to form a sheet solder blank;

(3) and adhering the solder blank body between the surfaces to be connected of the aluminum oxide ceramics to be welded, applying pressure to the parts to be welded, placing the parts in a brazing furnace for welding treatment, and cooling along with the furnace to complete the connection of the aluminum oxide ceramics.

Furthermore, in the connection method, in the step (2), the amount of the polyvinyl alcohol aqueous solution is 5-7 wt% of the microcrystalline glass solder, the pressure of the compression molding is 10-30 MPa, and the thickness of the sheet solder blank is 100-300 μm. The pressure applied in the step (3) is 0-15 KPa; the temperature schedule of the welding treatment in the brazing furnace is as follows: heating from room temperature to 350-400 ℃ at the speed of 5-10 ℃/min, preserving heat for 30-60 min, then continuously heating to 1150-1300 ℃ at the speed of 5-15 ℃/min, preserving heat for 20-40 min, then cooling to 700-900 ℃ at the speed of 10-20 ℃/min, and preserving heat for 1-2 h.

The invention has the following beneficial effects:

(1) CaO-Al of the invention₂O₃-SiO₂-ZnO-B₂O₃The microcrystalline glass solder belongs to medium-temperature glass solder, and the glass thermal expansion coefficient between 25 and 700 ℃ is 5.9 to 6.5 multiplied by 10^-6The temperature is matched with the thermal expansion coefficient of the connected alumina ceramic base material. CaO-Al₂O₃-SiO₂Is a matrix composition of microcrystalline glass, in which SiO₂Forming a glass network structure; al (Al)₂O₃The silicon-oxygen tetrahedron and the silicon-oxygen tetrahedron form a unified network; CaO belongs to the external network body and is CaCO₃The form being introduced so as to precipitate a calcium-containing microcrystalline phase and thereby improve the glass-ceramicsAnd (4) performance.

(2) The microcrystalline glass solder of the invention contains a small amount of ZnO and B₂O₃(B₂O₃With H₃BO₃Formally introduced) with the purpose of: ZnO can reduce the melting temperature of the glass solder on one hand, and can precipitate crystalline phases such as zinc silicate and the like on the other hand, thereby being beneficial to regulating and controlling the thermal expansion coefficient of the solder; b is₂O₃To reduce the melting and welding temperatures.

(3) The microcrystalline glass solder can realize the connection between alumina ceramics at 1150-1300 ℃, reduces the process difficulty of the alumina ceramic connection, can ensure that the room temperature strength of the joint can reach 255-280 MPa, is improved by 19-30 percent compared with the common glass joint, and effectively improves the connection quality of the alumina ceramics because the thermal expansion coefficient of the joint is better matched with that of an alumina base material and the defects of air holes, cracks and the like do not exist.

Drawings

The invention will now be described in further detail with reference to the following examples and the accompanying drawings:

FIG. 1 is a schematic view of a solder joint for joining alumina ceramics using a microcrystalline glass solder according to an embodiment of the present invention;

FIG. 2 is a temperature profile for bonding alumina ceramics using a microcrystalline glass solder according to an embodiment of the present invention.

In the figure: alumina ceramic to-be-welded parts 1, a solder blank 2, and pressure P applied on the to-be-welded parts

Detailed Description

The first embodiment is as follows:

1. this example is a glass-ceramic solder having a chemical composition of CaO 15 wt% and Al₂O₃15 wt％、SiO₂55 wt％、ZnO 5wt％、B₂O₃10 wt%; the glass thermal expansion coefficient of the microcrystalline glass solder is 6.2 multiplied by 10 at the temperature of 25-700 DEG C^-6/℃。

2. The preparation method of the microcrystalline glass solder comprises the following steps:

(1) ball milling mixing material

According to the chemical composition ratio, CaCO is used₃、Al₂O₃、SiO₂、ZnO、H₃BO₃Weighing raw materials, putting the raw materials, grinding balls and deionized water in a polytetrafluoroethylene ball milling tank according to the mass ratio of 1: 2: 1, and carrying out wet ball milling and mixing for 5 hours at the rotating speed of 300r/min to obtain a mixed material;

(2) melting and cold quenching

Drying the mixed material at 100 ℃ for 10h, grinding, sieving with a 200-mesh sieve, melting at 1450 ℃ for 1h, and then pouring the molten material into distilled water for cold quenching treatment to obtain glass frit;

(3) ball milling into powder

Pulverizing the glass frit by a dry ball mill at the rotating speed of 1200r/min for 30min, and sieving by a 250-mesh sieve to obtain CaO-Al₂O₃-SiO₂-ZnO-B₂O₃And (3) microcrystalline glass solder.

3. The method for connecting the alumina ceramics by adopting the microcrystalline glass solder comprises the following steps:

(1) step-by-step grinding and polishing treatment is carried out on the surfaces to be connected of the aluminum oxide ceramic parts to be welded 1 by using 500 # water-grinding abrasive paper, 800 # water-grinding abrasive paper, 1200 # water-grinding abrasive paper and 1600 # water-grinding abrasive paper;

(2) mixing the microcrystalline glass solder with 9 wt% polyvinyl alcohol aqueous solution (the dosage of the polyvinyl alcohol aqueous solution is 6 wt% of the microcrystalline glass solder), granulating, and performing compression molding under the pressure of 15MPa to obtain a sheet-shaped solder blank 2 with the thickness of 150 mu m;

(3) as shown in fig. 1, the above-mentioned solder green body 2 is adhered between the surfaces to be connected of the alumina ceramic pieces to be welded 1 by 502 glue, a pressure P of 10KPa is applied to the pieces to be welded, and the pieces are placed in a brazing furnace to perform the following welding process (see fig. 2): heating from room temperature to 400 deg.C at a rate of 5 deg.C/min, maintaining the temperature for 30min, then continuing heating to 1250 deg.C at a rate of 10 deg.C/min, maintaining the temperature for 30min, cooling to 750 deg.C at a rate of 10 deg.C/min, and maintaining the temperature for 1 h; and then cooling along with the furnace to finish the connection of the alumina ceramics.

The room temperature strength of the alumina joint connected with the microcrystalline glass prepared by the embodiment reaches 263MPa, and is improved by 22.3% compared with the common glass joint.

Example two:

the difference between the present embodiment and the first embodiment is:

the chemical composition of the microcrystalline glass solder is 10 wt% of CaO and Al₂O₃20 wt％、SiO₂55 wt％、ZnO 10wt％、B₂O₃5 wt%; the glass thermal expansion coefficient of the microcrystalline glass solder is 6.5 multiplied by 10 at the temperature of 25-700 DEG C^-6/℃。

The room temperature strength of the alumina joint connected with the microcrystalline glass prepared by the embodiment reaches 280MPa, and is improved by 30 percent compared with the common glass joint.

Example three:

the difference between the present embodiment and the first embodiment is:

in the method for connecting the alumina ceramics by using the microcrystalline glass solder in the embodiment, the welding treatment system of the step (3) in the brazing furnace is as follows: heating from room temperature to 350 deg.C at a speed of 10 deg.C/min, maintaining for 60min, heating to 1200 deg.C at a speed of 5 deg.C/min, maintaining for 40min, cooling to 860 deg.C at a speed of 20 deg.C/min, and maintaining for 1 h.

The room temperature strength of the alumina joint connected with the microcrystalline glass prepared by the embodiment reaches 274MPa, and is improved by 27.5 percent compared with the common glass joint.

Claims (9)

1. A microcrystalline glass solder is characterized by comprising the following chemical components: 15-20 wt% of CaO and Al₂O₃ 10～25wt％、SiO₂ 50～55wt％、ZnO 5～10wt％、B₂O₃5-10 wt%; the glass thermal expansion coefficient of the microcrystalline glass solder is 5.9-6.5 multiplied by 10 at the temperature of 25-700 DEG C^-6/℃。

2. A method for producing a microcrystalline glass solder according to claim 1, characterized by comprising the steps of:

(1) ball milling mixing material

According to the chemical composition ratio, CaCO is used₃、Al₂O₃、SiO₂、ZnO、H₃BO₃Weighing raw materials, and mixing by wet ball millingObtaining a mixed material;

(2) melting and cold quenching

Drying, grinding and sieving the mixed material, then carrying out melting treatment, and immediately carrying out cold quenching treatment on the melted melt material to obtain glass frit;

(3) ball milling into powder

Crushing the glass frit by a dry ball mill, and sieving to obtain CaO-Al₂O₃-SiO₂-ZnO-B₂O₃And (3) microcrystalline glass solder.

3. The method for producing a microcrystalline glass solder according to claim 2, characterized in that: in the step (2), the drying temperature is 80-110 ℃, and the drying time is 6-12 h.

4. The method for producing a microcrystalline glass solder according to claim 2, characterized in that: in the step (2), the melting temperature is 1400-1550 ℃, and the melting time is 1-3 h.

5. The method for producing a microcrystalline glass solder according to claim 2, characterized in that: the rotating speed of the dry ball mill in the step (3) is 1000-1400 r/min, and the ball milling time is 5-60 min.

6. The method for connecting alumina ceramics by using the microcrystalline glass solder as claimed in claim 1, which is characterized by comprising the following steps:

(1) grinding and polishing the surfaces to be connected of the aluminum oxide ceramics to-be-welded pieces;

(2) mixing the microcrystalline glass solder with a polyvinyl alcohol aqueous solution with the concentration of 9 wt%, and then granulating and pressing to form a sheet solder blank;

(3) and adhering the solder blank body between the surfaces to be connected of the aluminum oxide ceramics to be welded, applying pressure to the parts to be welded, placing the parts in a brazing furnace for welding treatment, and cooling along with the furnace to complete the connection of the aluminum oxide ceramics.

7. The method of joining alumina ceramics according to claim 6, wherein: in the step (2), the dosage of the polyvinyl alcohol aqueous solution is 5-7 wt% of the microcrystalline glass solder, the pressure of the compression molding is 10-30 MPa, and the thickness of the sheet solder blank is 100-300 mu m.

8. The method of joining alumina ceramics according to claim 6, wherein: and (3) applying pressure of 0-15 KPa.

9. The method of joining alumina ceramics according to claim 6, wherein: the temperature schedule of the welding treatment in the brazing furnace in the step (3) is as follows: heating from room temperature to 350-400 ℃ at the speed of 5-10 ℃/min, preserving heat for 30-60 min, then continuously heating to 1150-1300 ℃ at the speed of 5-15 ℃/min, preserving heat for 20-40 min, then cooling to 700-900 ℃ at the speed of 10-20 ℃/min, and preserving heat for 1-2 h.

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