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Preparation method of lead-free silver electrode paste for low-temperature PTC heat-sensitive electronic components

A technology of electronic components and electrode paste, which is applied to electrical components, conductive materials dispersed in non-conductive inorganic materials, resistors with positive temperature coefficients, etc., can solve the problem of high sintering temperature of glass powder, affecting conductivity, Printing performance is not good and other problems, to achieve the effect of changing the conductivity

Active Publication Date: 2019-05-28
CAIHONG GRP ELECTRONICS CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the sintering temperature of this slurry is 550-600°C in China, and there are two disadvantages. One is that the slurry made of glass powder is finer and rougher, resulting in a thicker film layer and poor compactness during the printing process. Holes are generated, printing performance is not good, and then the conductivity is affected. Second, the sintering temperature of the glass powder is high, and the adhesion is insufficient. At the same time, on low-temperature PTC components, a good inorganic coating on the surface of the protection component is required.

Method used

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Examples

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Effect test

preparation example Construction

[0023] The method for preparing lead-free silver electrode paste for low-temperature PTC heat-sensitive electronic components is characterized in that it comprises the following steps;

[0024] Step 1: Preparation of lead-free environmentally friendly self-made micron glass powder

[0025] Diverse oxides by SnO 2 2~5wt%, TeO 2 5-10wt%, B 2 o 3 25~40wt%, Bi 2 o 3 50~60wt%, ZnO 2~6wt%, TiO 2 2-5%, Al 2 o 3 2~5wt% mixed with BaO 2~10wt%, ball milled in a vibrating ball mill under an ethanol medium, and dried at a low temperature of 40-50°C under negative pressure, and the dried and mixed mixture was put into a crucible for a high temperature of 1000-1200°C Sintering, quenching with pure water at room temperature, and drying at 80-95°C to obtain crude glass products. After 8-12 hours, pass through a 300-mesh sieve to obtain 0.7-1.5 μm lead-free environmentally friendly self-made micron glass powder;

[0026] Step 2: Preparation of organic carrier

[0027] Heat at ...

Embodiment 1

[0038] Step 1: Preparation of micron glass powder

[0039] First weigh the raw materials of Bi2O3 55%, B2O3 25%, ZnO 2%, SnO 3%, Al2O3 2%, TeO2 5%, BaO 3%, TiO2 2% by weight; use ethanol as the medium in the planetary ball mill, and Drying under low temperature and negative pressure at 45°C, put the dried and mixed mixture into a crucible for high temperature sintering at 1180°C, quench with pure water at room temperature, dry at 85°C, put it into a ball mill jar and mill it in a planetary ball mill; rough glass products: Pure water: zirconia balls (Φ1mm) by mass ratio = 1:2:2; ball milled for 10 hours and passed through a 300-mesh sieve to obtain the lead-free environmentally friendly self-made micron glass powder with a particle size of 0.8 μm;

[0040] Step 2: Preparation of organic carrier

[0041]Weigh 5% 1,4 butyrolactone by mass percentage, 5% tributyl citrate, 15% butyl carbitol acetate, organic binder A of 20% ethyl cellulose, add 25% Diethylene glycol, 10% n-hexano...

Embodiment 2

[0046] Step 1: Preparation of micron glass powder

[0047] First weigh the percentage by weight as Bi 2 o 3 56%, B 2 o 3 25%, ZnO 6%, SnO 2 2%, Al 2 o 3 2%, TiO 2 5%, BaO 2%, TiO 2 2% raw material; use ethanol as the medium in a planetary ball mill, and dry it at 45°C under low-temperature negative pressure, put the dried and mixed mixture into a crucible for high-temperature sintering at 1180°C, quench it with pure water at room temperature, and dry it at 85°C , into a ball mill jar and ball milled in a planetary ball mill; glass crude product: pure water: zirconia ball (Φ1mm) according to the mass ratio = 1:2:2; after ball milling for 10 hours, pass through a 300-mesh sieve to obtain the lead-free environmentally friendly self-made Micron glass powder, the particle size is 0.7μm;

[0048] Step 2: Preparation of organic carrier

[0049] Weigh 15% of 1,4 butyrolactone by mass percentage, 20% of tributyl citrate, 20% of butyl carbitol acetate, 10% of ethyl cellul...

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PUM

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Abstract

The invention relates to a preparation method of lead-free silver electrode slurry for a low-temperature PTC temperature-sensitive electronic component. The preparation method comprises the steps of the preparation of low-temperature micron glass powder, the preparation of an organic carrier and the preparation of silver conductor slurry. According to the preparation of the low-temperature micron glass powder, components in mass percentage of 25 to 85% of Bi2O3, 5 to 35% of B2O3, 2 to 10% of ZnO, 2 to 5% of SnO, 1 to 5% of Al2O3, 3 to 10% of TeO2, 1 to 5% of BaO and 1 to 5% of TiO2 are selected; the raw materials are weighed according to proportions, the raw materials are subjected to ball milling of a planetary ball mill for 60 to 90 minutes with ethyl alcohol adopted as a medium, and obtained products are uniformly mixed, an obtained mixture is dried, so that a uniformly-mixed oxide can be obtained; the mixture is melt in a high-temperature sintering furnace; the melt mixture is poured into deionized water, so that a large-particle glass crude product is obtained, the product is dried under 80 to 95 DEG C, the dried large-particle glass crude product is arranged in a ball-milling tank so as to be subjected to ball milling of the planetary ball mill, and the ratio of the glass crude product to pure water to zirconia spheres of which the diameter phi is 1mm is 1:2:2; and after the large-particle glass crude product is subjected to ball milling for 8 to 12 hours, an obtained product passes through a 300-mesh screen, so that the low-temperature lead-free glass powder of which the particle size ranges from 0.7 to 1 . 5 microns can be obtained. The lead-free glass powder obtained by the using the preparation method of the invention has the advantages of low softening temperature, high bonding strength, narrow distribution, small particle size and high consistency.

Description

technical field [0001] The invention relates to the technical field of electronic paste, in particular to a preparation method of lead-free silver electrode paste for low-temperature PTC heat-sensitive electronic components. Background technique [0002] PTC thermistors can be used as switch PTC ceramic components in computers and their peripheral equipment, mobile phones, battery packs, air conditioners, telecommunication and network equipment, transformers, industrial control equipment, automobiles and other electronic products. [0003] Among them, the main components of the applied silver paste include functional phase silver powder, inorganic binder (such as glass powder, oxide powder, etc.), organic binder, other solvents and additives. At present, the sintering temperature of this slurry is 550-600°C in China, and there are two disadvantages. One is that the slurry made of glass powder is finer and rougher, resulting in a thicker film layer and poor compactness during...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01B1/20H01B1/08H01B13/00H01C7/02
CPCH01B1/08H01B1/20H01B13/00H01C7/02
Inventor 樊钊锋刘君秀
Owner CAIHONG GRP ELECTRONICS CO LTD
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