CN112080221A

CN112080221A - Conductive silver adhesive with long service time at room temperature and low-temperature curing function and preparation method thereof

Info

Publication number: CN112080221A
Application number: CN202010978394.3A
Authority: CN
Inventors: 陈维林; 马灵
Original assignee: Dysprosium Pu Materials Shenzhen Co ltd
Current assignee: Dysprosium Pu Materials Shenzhen Co ltd
Priority date: 2020-09-17
Filing date: 2020-09-17
Publication date: 2020-12-15

Abstract

The invention relates to the technical field of adhesives for 3C electronic industry, in particular to a conductive silver adhesive which has long service time at room temperature and can be cured at low temperature and a preparation method thereof, 70-75 parts of silver powder, 17.5-21.3 parts of epoxy resin, 1.5-2.2 parts of diisocyanate modified imidazole, 4-5.5 parts of active diluent, 0.18-0.26 part of coupling agent, 0.036-0.052 part of defoaming agent and 0.09-0.13 part of dispersing agent; the conductive silver adhesive prepared by the formula and the preparation method thereof can prolong the storage period of the conductive silver adhesive without increasing the viscosity of the conductive silver adhesive.

Description

Conductive silver adhesive with long service time at room temperature and low-temperature curing function and preparation method thereof

Technical Field

The invention relates to the technical field of adhesives for 3C electronic industry, in particular to a conductive silver adhesive which has long service time at room temperature and can be cured at low temperature and a preparation method thereof.

Background

The current 3C industry's demand for conductive adhesives is more prone to low temperature curing, which is more beneficial for protecting the performance of other components. The existing low-temperature curing conductive silver adhesive is placed at normal temperature, the viscosity of the conductive adhesive is easy to increase, the use performance of the conductive adhesive is affected, and the use period of the conductive adhesive is greatly shortened. In addition, the content of the latent curing agent in the existing conductive adhesive is large, and the viscosity of the conductive adhesive is directly and indirectly increased.

Disclosure of Invention

The invention aims to provide the conductive silver adhesive which has long service time at room temperature and can be cured at low temperature and the preparation method thereof, aiming at the defects and the defects of the prior art.

In order to achieve the purpose, the invention adopts the technical scheme that:

the conductive silver adhesive which can be used for a long time at room temperature and can be cured at low temperature comprises, by weight, 70-75 parts of silver powder, 17.5-21.3 parts of epoxy resin, 1.5-2.2 parts of self-made diisocyanate modified imidazole, 4-5.5 parts of reactive diluent, 0.18-0.26 part of coupling agent, 0.036-0.052 part of defoaming agent and 0.09-0.13 part of dispersing agent.

Further, the diisocyanate modified imidazole is prepared by adding 0.5mol of di-ethyl-tetra-methylimidazole, 0.5mol of diphenylmethane diisocyanate and 180.2g of analytically pure ethyl acetate into a 500ml three-neck flask, reacting for 2 hours at 70-80 ℃, and cooling to evaporate ethyl acetate.

Further, the coupling agent is any one of a silane coupling agent, a titanate coupling agent and an aluminate coupling agent.

Further, the reactive diluent is any one of glycidyl ether, ethylene glycol diglycidyl ether and propylene glycol diglycidyl ether.

In order to solve the technical problems, the invention adopts the technical scheme that: the method comprises the following steps:

a. stirring epoxy resin, diisocyanate modified imidazole, reactive diluent, coupling agent, defoaming agent and dispersing agent in a preset amount for 20 minutes at normal temperature and under the environment condition that the humidity is 50-60% to form uniform liquid, and preparing base adhesive for later use;

b. b, putting a preset amount of silver powder into the base glue obtained in the step a, and uniformly stirring and dispersing;

c. and c, vacuumizing and exhausting bubbles of the silver colloid uniformly stirred in the step b, subpackaging, and performing secondary bubble exhausting by using a centrifugal machine after subpackaging.

Further, the silver powder is composed of flake silver powder and spherical silver powder; the silver powder comprises large-particle powder, medium-particle powder and fine-particle powder; the particle size of the large-particle powder is 8-10 mu m; the particle size of the medium-particle powder is 5-8 mu m; the particle size of the fine powder is less than 3 mu m; the mass ratio of the large-grain powder material to the medium-grain powder material to the fine-grain powder material is 1:1: 0.5; and adding the large-particle powder, the medium-particle powder and the fine-particle powder into the base adhesive in the order of the particle size from large to small, uniformly stirring after adding the silver powder of one specification, and then adding the silver powder of the other particle size and uniformly stirring until the silver powder of various particle sizes is added.

Compared with the prior art, the invention has the beneficial effects that:

1. the base adhesive prepared by mixing the self-made diisocyanate modified imidazole can prolong the time of viscosity change and prolong the storage period of the conductive silver adhesive.

2. The use content of the latent curing agent can be reduced by adopting diisocyanate modified imidazole, the content of the epoxy resin is increased relatively, and the viscosity of the conductive silver adhesive can be effectively reduced.

3. Adding silver powder with different granularities is helpful to improve the silver powder distribution of the conductive silver paste: the silver powder can be arranged more compactly, and the conductivity of the adhesive is better.

Detailed Description

The present invention will now be described in detail with reference to specific examples, which are provided for illustration only and are not intended to be limiting.

Example 1:

the conductive silver adhesive which has long service time at room temperature and can be cured at low temperature is prepared from the following components in parts by weight:

the weight of each part of the following components is 1 kg;

70 parts of silver powder, 17.5 parts of epoxy resin, 1.8 parts of diisocyanate modified imidazole, 5.5 parts of reactive diluent, 0.26 part of coupling agent, 0.052 part of defoaming agent and 0.09 part of dispersing agent.

The conductive silver adhesive which has long service time at room temperature and can be cured at low temperature is prepared by the following preparation method, and comprises the following steps:

a. stirring 17.5 parts of epoxy resin, 1.8 parts of diisocyanate modified imidazole, 5.5 parts of reactive diluent, 0.26 part of coupling agent, 0.052 part of defoaming agent and 0.09 part of dispersing agent according to the preset amount for 20 minutes under the ambient conditions of normal temperature and 50% of humidity to form uniform liquid, and preparing base adhesive for later use; b. b, putting a preset amount of silver powder into the base glue obtained in the step a, and uniformly stirring and dispersing; c. b, vacuumizing and discharging bubbles from the silver colloid uniformly stirred in the step b, subpackaging, and performing secondary bubble discharge by using a centrifugal machine after subpackaging;

wherein the silver powder is composed of flake silver powder and spherical silver powder; the silver powder comprises large-particle powder, medium-particle powder and fine-particle powder; the particle size of the large-particle powder is 8-10 mu m; the particle size of the medium-particle powder is 5-8 mu m; the particle size of the fine powder is less than 3 mu m; the mass ratio of the large-grain powder material to the medium-grain powder material to the fine-grain powder material is 1:1: 0.5; adding 28 parts of large-particle powder, 28 parts of medium-particle powder and 14 parts of fine-particle powder into the base adhesive in the order from large to small according to the particle size, uniformly stirring after adding each silver powder of one specification, then adding silver powder of another particle size and uniformly stirring until the silver powder of various particle sizes is added; the diisocyanate modified imidazole is prepared by adding 0.5mol of di-ethyl-tetra-methylimidazole, 0.5mol of diphenylmethane diisocyanate and 180.2g of analytically pure ethyl acetate into a 500ml three-neck flask, reacting at 70-80 ℃ for 2 hours, and cooling to evaporate ethyl acetate. The coupling agent is any one of silane coupling agent, titanate coupling agent and aluminate coupling agent. The reactive diluent is any one of glycidyl ether, ethylene glycol diglycidyl ether and propylene glycol diglycidyl ether.

Example 2:

72 parts of silver powder, 21.3 parts of epoxy resin, 2.2 parts of diisocyanate modified imidazole, 4 parts of reactive diluent, 0.22 part of coupling agent, 0.044 part of defoaming agent and 0.13 part of dispersing agent.

a. stirring 21.3 parts of epoxy resin, 2.2 parts of diisocyanate modified imidazole, 4 parts of reactive diluent, 0.22 part of coupling agent, 0.044 part of defoaming agent and 0.13 part of dispersing agent according to a preset amount for 20 minutes under the environmental conditions of normal temperature and 60% humidity to form uniform liquid, and preparing base adhesive for later use; b. b, putting a preset amount of silver powder into the base glue obtained in the step a, and uniformly stirring and dispersing; c. and c, vacuumizing and exhausting bubbles of the silver colloid uniformly stirred in the step b, subpackaging, and performing secondary bubble exhausting by using a centrifugal machine after subpackaging. Wherein the silver powder is composed of flake silver powder and spherical silver powder; the silver powder comprises large-particle powder, medium-particle powder and fine-particle powder; the particle size of the large-particle powder is 8-10 mu m; the particle size of the medium-particle powder is 5-8 mu m; the particle size of the fine powder is less than 3 mu m; the mass ratio of the large-grain powder material to the medium-grain powder material to the fine-grain powder material is 1:1: 0.5; 28.8 parts of large-particle powder, 28.8 parts of medium-particle powder and 14.4 parts of fine-particle powder are added into the base adhesive in the order of particle size from large to small, and the silver powder with the other particle size is added and stirred uniformly after each silver powder with one specification is added; the diisocyanate modified imidazole is prepared by adding 0.5mol of di-ethyl-tetra-methylimidazole, 0.5mol of diphenylmethane diisocyanate and 180.2g of analytically pure ethyl acetate into a 500ml three-neck flask, reacting at 70-80 ℃ for 2 hours, and cooling to evaporate ethyl acetate. The coupling agent is any one of silane coupling agent, titanate coupling agent and aluminate coupling agent. The reactive diluent is any one of glycidyl ether, ethylene glycol diglycidyl ether and propylene glycol diglycidyl ether.

Example 3:

the weight of each part of the following components is 1 kg;

75 parts of silver powder, 20 parts of epoxy resin, 1.5 parts of diisocyanate modified imidazole, 4.8 parts of reactive diluent, 0.18 part of coupling agent, 0.036 part of defoaming agent and 0.11 part of dispersing agent.

a. stirring 75 parts of silver powder, 20 parts of epoxy resin, 1.5 parts of diisocyanate modified imidazole, 4.8 parts of reactive diluent, 0.18 part of coupling agent, 0.036 part of defoaming agent and 0.11 part of dispersing agent for 20 minutes at normal temperature and under the environment with the humidity of 55% to obtain uniform liquid, and preparing base adhesive for later use; b. b, putting a preset amount of silver powder into the base glue obtained in the step a, and uniformly stirring and dispersing; c. and c, vacuumizing and exhausting bubbles of the silver colloid uniformly stirred in the step b, subpackaging, and performing secondary bubble exhausting by using a centrifugal machine after subpackaging. Wherein the silver powder is composed of flake silver powder and spherical silver powder; the silver powder comprises large-particle powder, medium-particle powder and fine-particle powder; the particle size of the large-particle powder is 8-10 mu m; the particle size of the medium-particle powder is 5-8 mu m; the particle size of the fine powder is less than 3 mu m; the mass ratio of the large-grain powder material to the medium-grain powder material to the fine-grain powder material is 1:1: 0.5; adding 30 parts of large-particle powder, 30 parts of medium-particle powder and 15 parts of fine-particle powder into the base adhesive in the order from large to small according to the particle size, uniformly stirring after adding each silver powder of one specification, then adding silver powder of another particle size and uniformly stirring until the silver powder of various particle sizes is added; the diisocyanate modified imidazole is prepared by adding 0.5mol of di-ethyl-tetra-methylimidazole, 0.5mol of diphenylmethane diisocyanate and 180.2g of analytically pure ethyl acetate into a 500ml three-neck flask, reacting at 70-80 ℃ for 2 hours, and cooling to evaporate ethyl acetate. The coupling agent is any one of silane coupling agent, titanate coupling agent and aluminate coupling agent. The reactive diluent is any one of glycidyl ether, ethylene glycol diglycidyl ether and propylene glycol diglycidyl ether.

Compared with the prior art, the invention has the beneficial effects that:

1. the base adhesive formed by mixing diisocyanate modified imidazole can prolong the time of viscosity change and prolong the storage period of the conductive silver adhesive.

2. The use content of the latent curing agent can be reduced by adopting diisocyanate modified imidazole, the content of the epoxy resin is increased, and the viscosity of the conductive silver adhesive can be increased.

The foregoing is for the purpose of illustrating the invention only and various simple changes and modifications within the spirit of the invention made by those skilled in the art should fall within the scope of the invention.

Claims

1. The utility model provides a room temperature live time is long and can low temperature solidification conductive silver glue which characterized in that: the conductive silver adhesive consists of the following components in percentage by weight,

70-75 parts of silver powder, 17.5-21.3 parts of epoxy resin, 1.5-2.2 parts of self-made diisocyanate modified imidazole, 4-5.5 parts of reactive diluent, 0.18-0.26 part of coupling agent, 0.036-0.052 part of defoaming agent and 0.09-0.13 part of dispersing agent.

2. The conductive silver paste capable of being used at room temperature for a long time and being cured at low temperature according to claim 1, wherein: the diisocyanate modified imidazole is prepared by adding 0.5mol of di-ethyl-tetra-methylimidazole, 0.5mol of diphenylmethane diisocyanate and 180.2g of analytically pure ethyl acetate into a 500ml three-neck flask, reacting for 2 hours at 70-80 ℃, cooling and distilling off the ethyl acetate.

3. The conductive silver paste capable of being used at room temperature for a long time and being cured at low temperature according to claim 1, wherein: the coupling agent is any one of silane coupling agent, titanate coupling agent and aluminate coupling agent.

4. The conductive silver paste capable of being used at room temperature for a long time and being cured at low temperature according to claim 1, wherein: the reactive diluent is any one of glycidyl ether, ethylene glycol diglycidyl ether and propylene glycol diglycidyl ether.

5. The method for preparing the conductive silver adhesive which has long service life at room temperature and can be cured at low temperature according to claim 1, is characterized in that: the method comprises the following steps:

6. The conductive silver paste capable of being used at room temperature for a long time and being cured at low temperature according to claim 5, wherein: the silver powder consists of flake silver powder and spherical silver powder; the silver powder comprises large-particle powder, medium-particle powder and fine-particle powder; the particle size of the large-particle powder is 8-10 mu m; the particle size of the medium-particle powder is 5-8 mu m; the particle size of the fine powder is less than 3 mu m; the mass ratio of the large-grain powder material to the medium-grain powder material to the fine-grain powder material is 1:1: 0.5; and adding the large-particle powder, the medium-particle powder and the fine-particle powder into the base adhesive in the order of the particle size from large to small, uniformly stirring after adding the silver powder of one specification, and then adding the silver powder of the other particle size and uniformly stirring until the silver powder of various particle sizes is added.