KR100555438B1 - Composition of RTV Silicon Paste for Conductive Silicon Rubber and Process for Producing the Same - Google Patents

Abstract

The present invention relates to a conductive one-liquid room temperature-curable silicone paste composition and a method for manufacturing the same, comprising a one-liquid room temperature-curable silicone resin, a conductive metal powder, an organic solvent, and a silane compound having 3 or 4 alkoxy functional groups. The material is prepared by mixing a degassing mixer in a vacuum of 250 to 350 torr for 8 to 12 minutes at 350 to 500 revolutions per minute, and the conductive one-liquid room temperature-curable silicone paste composition according to the present invention is a conductive metal powder and a one-component type. By preventing separation due to the difference in specific gravity between the room temperature-curable silicone resin, there is an effect of optimizing the conductivity of the metal powder included in the paste composition.

Silicone, paste, conductive, metal powder, curing, room temperature

Description

Conductive one-liquid room temperature curable silicone paste composition and its manufacturing method {Composition of RTV Silicon Paste for Conductive Silicon Rubber and Process for Producing the Same}

The present invention relates to a conductive one-liquid room temperature-curable silicone paste composition and a method of manufacturing the same. More specifically, in mixing a one-component curable silicone resin and a conductive metal powder, by adding an organic solvent to improve the phenomenon that the silicone resin and the conductive metal powder is separated by the difference in specific gravity, the molding process of the silicone rubber through the room temperature curing process The present invention relates to a conductive one-liquid room temperature curable paste composition capable of optimizing the conductivity of a metal powder, and a method of manufacturing the same.

One-component room temperature curable silicone is used as a one-component type, and is exposed to the air at room temperature, and the curing reaction proceeds by moisture, which shows rubber properties. It can be used for various types of parts using its characteristics, so its use range is wide.

In this case, the powdery particles to be used can be used for materials such as electromagnetic shielding gaskets in the high frequency region by imparting electrical conductivity to the silicon rubber to be finally processed using a metal powder having electrical conductivity.

In processing a paste-like mixture by adding a conductive metal powder filler using a one-component room temperature-curable silicone resin, there are a number of factors that can affect the conductivity of the silicone rubber to be subsequently formed.

If the content of the conductive metal powder is not sufficiently mixed and processed to a level having electrical conductivity, the conductivity of the molded silicone rubber does not have the maximum conductivity that the conductive metal powder used can have. The particle size, distribution, shape, etc. of the metal powder affect the electrical conductivity, which also has a great influence on the viscosity of the one-component room temperature curable silicone paste mixed with the metal powder due to the difference in the surface area of the particles.

By the separation of the filler and the silicone resin, which may occur during the storage of the paste after the mixing process, the distribution of the conductive metal particles in the subsequently formed silicone rubber may be non-uniform and may have an electrical resistance above the threshold that the conductive metal powder can produce. Electrical resistance increases due to pores inside the paste included during processing of the conductive silicon paste.

In addition, the formation of pores by volatilization of the organic solvent added in the composition in order to control the increase in viscosity that may occur during the pressure reduction process employed to control the pores inside the paste and the mixing process of the powder also increases the electrical resistance.

In order to solve the above problems, the present invention provides a conductive one-liquid room temperature-curable silicone paste composition comprising a one-component room temperature-curable silicone resin, a conductive metal powder, an organic solvent, and a silane compound having 3 or 4 alkoxy functional groups. do.

In addition, the present invention provides a method for producing a conductive one-liquid room temperature-curable silicone paste composition, characterized in that the mixture for 8 to 12 minutes at 250 to 350 torr, 350 to 500 revolutions per minute using a defoaming mixer. to provide.

The above and other objects of the present invention can be achieved by the present invention described below.

The present invention to achieve the above object,

Provided is a conductive one-component room temperature-curable silicone paste composition comprising a one-component room temperature-curable silicone resin, a conductive metal powder, an organic solvent, and a silane compound having 3 or 4 alkoxy functional groups.

The one-component room temperature-curable silicone resin is 20 to 40 parts by weight, the conductive metal powder is 60 to 80 parts by weight, the silane compound having the 3 or 4 alkoxy functional group is 100 parts by weight of the one-component room temperature curing silicone resin and the conductive metal powder. 0.1 to 0.5 parts by weight with respect to parts, the organic solvent may be 0.1 to 25 parts by weight based on 100 parts by weight of the conductive metal powder.

In addition, the present invention is a one-component room temperature curing silicone resin, conductive metal powder, an organic solvent and a silane compound having a 3 or 4 alkoxy functional group using a degassing mixer at 250 to 350 torr, at 350 to 500 revolutions per minute 8 It provides a method for producing a conductive one-liquid room temperature-curable silicone paste composition, characterized in that for 12 minutes to mix.

The one-component room temperature curable silicone resin has a viscosity value of 500 to 800, at least one selected from the group consisting of a deacetic acid type, a oxime type, a dealcohol type, and a acetone type according to the curing type, and has the 3 or 4 alkoxy functional group. The silane compound may be selected from the group consisting of gamma aminopropyltriethoxysilane, gammaaminopropyltrimethoxysilane, bistriethoxysilylethane, bistrimethoxysilylethane, tetraethoxysilane and tetramethoxysilane. have.

Hereinafter, the present invention will be described in detail.

In order to prepare a one-component room temperature-curable silicone paste having conductivity by mixing the conductive metal powder and to impart proper conductivity to the silicon rubber processed using the same, one-component room temperature-curable silicone having an appropriate viscosity should be used.

In addition, an organic solvent for controlling the final viscosity of the one-component room temperature-curable silicone paste in which the metal powder is mixed with the one-component room temperature-curable silicone paste at an appropriate level of reduced pressure, blocking external air, appropriate selection of the metal powder, and mixed metal powder Proper use of is necessary.

Silicone resins used in the processing of one-component room temperature-curable silicone pastes in which conductive metal powders capable of processing silicone rubber by normal temperature processes can be used for deacetic acid type, dealcohol type, deoxime type, and deacetone type. Low viscosity materials are used for ease of post-processing.

The conductive metal powder may be selected according to the conductive region of the silicon to be processed, and the shape of the powder may be spherical, granule, plate, needle, or the like. However, considering the implementation of effective conductivity of the particles and separation from the resin due to specific gravity difference, it is appropriate to use the 90% size below 50μm.

The mixing ratio of the silicone resin and the metal powder is a weight ratio of about 30:70, and there may be slight differences in the mixing ratio depending on the material used and the processing method.

Examples of the alkoxy silane compound for inhibiting separation from the resin layer due to the settlement of the metal powder include gammaaminopropyltriethoxysilane, gammaaminopropyltrimethoxysilane, bistriethoxysilylethane, bistrimethoxysilylethane and tetra Ethoxysilane, tetramethoxysilane, etc. may be used, and the amount thereof is used in an amount of 0.1 to 0.5 parts by weight based on 100 parts by weight of the silicone resin and the metal powder.

The organic solvent used to adjust the viscosity of the one-component room temperature-curable silicone paste in which the conductive metal powder is mixed can be used in various forms depending on the form of the silicone, but it is more preferable to use dried toluene.

The organic solvent may be used in an amount of up to 25 parts by weight based on 100 parts by weight of the silicone resin and the metal powder in order to adjust the viscosity of the one-component room temperature-curable silicone paste mixed with the conductive metal powder, but is preferably used within 15%.

The above composition is placed in a vacuum defoaming mixer to complete mixing by rotating the mixer for 10 minutes at 500 revolutions per minute under a vacuum of 300 torr. The range of the degree of vacuum is suitable about 250 to 350 torr. In the vacuum of 200 torr or more and 400 torr or more, bubbles are formed on the mixing paste, which is not preferable. Mixing for 10 minutes at 350 to 500 revolutions per minute is appropriate. Do.

When the number of revolutions is outside the exemplified range or when the mixing time exceeds 10 minutes, the electrical resistance of the finally formed conductive silicone rubber becomes larger than that otherwise.

Hereinafter, the present invention will be described in more detail with reference to the following examples, but the scope of the present invention is not limited to the examples.

Example 1

30 g of deacetone-type one-component, room-temperature-curable silicone with a viscosity value of 550 poise, granulated silver coated copper powder 70 g, toluene 12 g, and 0.1 g bisethethoxysilylethane in a defoaming mixer under a condition excluding water in the air The mixer was rotated and mixed for 10 minutes at 500 revolutions per minute to prepare a one-component room temperature curable silicone paste.

The prepared paste was processed into a 0.3 mm thick plate-shaped test piece after storage at room temperature for a full time to prepare a silicone rubber, and cut to a width of 5 mm to measure conductivity. The conductivity deviation in the test specimens did not show a large deviation in the experimental errors by measurement position, but showed a resistance value of less than 0.1 ohm-cm.

Example 2

30 g of deacetone-type one-component room temperature-curable silicone having a viscosity value of 550 poise and needle-shaped silver-coated copper powder 70 g, toluene 8 g, and 0.1 g gammaaminopropyltrimethoxysilane in a defoaming mixer under conditions that exclude moisture in the air The mixture was rotated for 10 minutes at 500 revolutions per minute under vacuum to prepare a one-component room temperature curable silicone paste.

The prepared paste was processed into a 0.3 mm thick plate-shaped test piece after storage at room temperature for a full time to prepare a silicone rubber, and cut to a width of 5 mm to measure conductivity. The conductivity deviation in the test specimens did not show a large deviation in the experimental errors by measurement position, but showed a resistance value of less than 0.1 ohm-cm.

Example 3

30 g of dealcoholic one-component room temperature curable silicone having a viscosity value of 550 poise and needle-shaped silver-coated copper powder 70 g, toluene 8 g, and gamma aminopropyl trimethoxysilane 0.1 g in a defoaming mixer under conditions that exclude moisture in the air The mixture was rotated for 10 minutes at 500 revolutions per minute under vacuum to prepare a one-component room temperature curable silicone paste.

The prepared paste was processed into a 0.3 mm thick plate-shaped test piece after storage at room temperature for a full time to prepare a silicone rubber, and cut to a width of 5 mm to measure conductivity. The conductivity deviation in the test specimens did not show a large deviation in the experimental errors for each measurement position, and the resistance value was less than 0.1 ohm-cm.

Example 4

30 g of deacetone-type one-component room temperature-curable silicone having a viscosity value of 750 poise, needle-shaped silver-coated copper powder, 70 g, toluene 17 g, and 0.1 g of gammaaminopropyltrimethoxysilane in a defoaming mixer under conditions that exclude moisture in the air The mixture was rotated for 10 minutes at 500 revolutions per minute under vacuum to prepare a one-component room temperature curable silicone paste.

The prepared paste was processed into a 0.3 mm thick plate-shaped test piece after storage at room temperature for a full time to prepare a silicone rubber, and cut to a width of 5 mm to measure conductivity. The conductivity deviation in the test specimens did not show a large deviation in the experimental errors by measurement position, but showed a resistance value of less than 0.1 ohm-cm.

Comparative Example 1

30 g of dealcoholic one-component room temperature curable silicone having a viscosity value of 550 poise and needle-like silver-coated copper powder 70 g, toluene 8 g, and 1 g gammaaminopropyltrimethoxysilane in a defoaming mixer under conditions excluding water in the air A one-component room temperature curable silicone paste was prepared by rotating the mixer for 10 minutes at 500 revolutions per minute under vacuum.

The prepared paste was processed into a 0.3 mm thick plate-shaped test piece after storage at room temperature for a full time to prepare a silicone rubber, and cut to a width of 5 mm to measure conductivity. The conductivity deviation in the test specimens did not show a large deviation in the experimental error by measurement position, but showed a resistance value of 1 ohm-cm or more.

Comparative Example 2

To 30 g of dealcoholic one-component room temperature curable silicone with a viscosity value of 550 poise, needle-like silver-coated copper powder 70 g, toluene 8 g, and gamma aminopropyltrimethoxysilane 0.5 g in a defoaming mixer under conditions that exclude moisture in the air The mixture was rotated for 5 minutes at 500 revolutions per minute under vacuum to prepare a one-component room temperature curable silicone paste.

The prepared paste was processed into a 0.3 mm thick plate-shaped test piece after storage at room temperature for a full time to prepare a silicone rubber, and cut to a width of 5 mm to measure conductivity. The conductivity deviation in the test specimens did not show a large deviation in the experimental errors by measurement position, but showed a resistance value of 10 ohm-cm or more.

As described above, the conductive one-liquid room temperature-curable silicone paste composition according to the present invention is a phenomenon in which the silicone resin and the conductive metal powder are separated by a specific gravity difference when the one-component curable silicone resin and the conductive metal powder are mixed. It is a useful invention that has the effect of optimizing the conductivity of the metal powder in the molding process of the silicone rubber through improving the room temperature curing process.

While the invention has been described in detail above with reference to the described embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the scope and spirit of the invention, and such modifications and variations fall within the scope of the appended claims. It is also natural.

Claims (5)

A conductive one-liquid room temperature-curable silicone paste composition comprising a one-component room temperature-curable silicone resin, a conductive metal powder, an organic solvent, and a silane compound having 3 or 4 alkoxy functional groups. The method of claim 1, The silane compound having 20 to 40 parts by weight of the one-component room temperature curable silicone resin, 60 to 80 parts by weight of the conductive metal powder and the 3 or 4 alkoxy functional group is 100 parts by weight of the one-component room temperature curable silicone resin and the conductive metal powder. 0.1-0.5 weight part with respect to a part, and the said organic solvent is 0.1-25 weight part with respect to 100 weight part of said conductive metal powders. The method of claim 1, The one-component room temperature curable silicone resin has a 500 to 800 viscosity value, and is selected from the group consisting of a deacetic acid type, a oxime type, a dealcohol type, and a acetone type according to the curing type, and has the 3 or 4 alkoxy functional group. The silane compound is at least one selected from the group consisting of gammaaminopropyltriethoxysilane, gammaaminopropyltrimethoxysilane, bistriethoxysilylethane, bistrimethoxysilylethane, tetraethoxysilane and tetramethoxysilane Electroconductive one-liquid room temperature hardening type silicone paste composition characterized by the above-mentioned. One-component room temperature-curable silicone resin, conductive metal powder, organic solvent and silane compound having 3 or 4 alkoxy functional groups are mixed for 8 to 12 minutes at 250-350 torr vacuum and 350 to 500 revolutions per minute using a defoaming mixer. A method for producing a conductive one-liquid room temperature-curable silicone paste composition. The method of claim 4, wherein The one-component room temperature curable silicone resin has a viscosity of 500 to 800, and is at least one selected from the group consisting of a deacetic acid type, a oxime type, a dealcohol type, and a acetone type, depending on the type of curing, and has a 3 or 4 alkoxy functional group. The silane compound is selected from the group consisting of gammaaminopropyltriethoxysilane, gammaaminopropyltrimethoxysilane, bistriethoxysilylethane, bistrimethoxysilylethane, tetraethoxysilane and tetramethoxysilane. A method for producing a conductive one-liquid room temperature-curable silicone paste composition.