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Nano AGM (Absorbed Glass Mat) separator and preparation method thereof

A separator and nanotechnology, applied in the field of AGM separator and its preparation, can solve the problem of high production cost, achieve the effect of stable separator structure, strong ability to absorb electrolyte, and reduce environmental pollution

Active Publication Date: 2014-12-17
TAICANG PAIOU TECH CONSULTING SERVICE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The outer covering fiber is a polymer that can be re-melted during the manufacturing process. This melting can make the special fiber stick to any glass fiber. When the temperature drops to room temperature or battery operating temperature, the melted part changes again. It is tough and strengthens the glass hybrid structure. The AGM separator is reinforced with this special organic fiber, which can withstand the mechanical force of being stretched on the automatic machine in the battery assembly. The structure of the separator is relatively stable, but the production cost is relatively high.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] A nanometer AGM separator is characterized in that the AGM separator is composed of glass fiber, sepiolite powder, rice husk ash and fly ash. The weight percentage of the glass fiber is 40%, and the average diameter is 14 μm; the weight percentage of sepiolite powder is 25%, and the fineness is 1000 mesh; the weight percentage of rice husk ash is 25%, and the fineness is 325 mesh; the fly ash is the national standard The first grade fly ash, the percentage by weight is 10%, and the fineness is 500 mesh.

[0027] A preparation method for a nano-AGM separator, comprising the steps in the following order:

[0028] (1) After batching according to the proportion, the glass fiber is beating, mixing, removing slag and impurities in sequence;

[0029] (2) Remove 60% of the moisture in the slurry, and the dehydration pressure is 1MPa;

[0030] (3) Add the prepared sepiolite powder, rice husk ash, and fly ash into the mixer, and stir until the mixture is uniform, and the stirri...

Embodiment 2

[0035] A nanometer AGM separator is characterized in that the AGM separator is composed of glass fiber, sepiolite powder, rice husk ash and fly ash. The weight percentage of the glass fiber is 55%, and the average diameter is 8 μm; the weight percentage of sepiolite powder is 18%, and the fineness is 650 mesh; the weight percentage of rice husk ash is 20%, and the fineness is 250 mesh; the fly ash is the national standard The first grade fly ash is 7% by weight and the fineness is 350 mesh.

[0036] A preparation method for a nano-AGM separator, comprising the steps in the following order:

[0037] (1) After batching according to the proportion, the glass fiber is beating, mixing, removing slag and impurities in sequence;

[0038] (2) Remove 70% of the moisture in the slurry, and the dehydration pressure is 1.5MPa;

[0039] (3) Add the prepared sepiolite powder, rice husk ash and fly ash into the mixer, and stir until evenly mixed, and the stirring time is 6 minutes;

[004...

Embodiment 3

[0044] A nanometer AGM separator is characterized in that the AGM separator is composed of glass fiber, sepiolite powder, rice husk ash and fly ash. The weight percentage of the glass fiber is 70%, and the average diameter is 3 μm; the weight percentage of sepiolite powder is 10%, and the fineness is 350 mesh; the weight percentage of rice husk ash is 15%, and the fineness is 150 mesh; the fly ash is the national standard The first grade fly ash, the percentage by weight is 5%, and the fineness is 150 mesh.

[0045] A preparation method for a nano-AGM separator, comprising the steps in the following order:

[0046] (1) After batching according to the proportion, the glass fiber is beaten, mixed, and slag and impurity removal in sequence;

[0047] (2) Remove 75% of the moisture in the slurry, and the dehydration pressure is 2MPa;

[0048] (3) Add the prepared sepiolite powder, rice husk ash and fly ash into the mixer, and stir until evenly mixed, and the stirring time is 9 mi...

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Abstract

The invention discloses a nano AGM (Absorbed Glass Mat) separator and a preparation method thereof. The AGM separator is prepared from glass fibers, sepiolite powder, rice hull ash and coal ash, wherein the glass fibers account for 40-70% in percentage by weight and have the diameters of 1-15 microns; the sepiolite powder accounts for 10-25% in percentage by weight and has the fineness of 350-1000 meshes; the rice hull ash accounts for 15-25% and has the fineness of 150-325 meshes; the coal ash is national standard level 1 coal ash which accounts for 5-10% in percentage by weigh and has the fineness of 150-500 meshes. The sepiolite powder, the rice hull ash and the coal ash in the separator all have a microscopic nanopore structure and high electrolyte absorption capacity, and meanwhile, are capable of supporting the separator so that the structure of the separator can be more stable. The preparation method of the nano AGM separator is wide in the source of the needed raw materials, low in production cost, and simple in process; besides, the environmental pollution is greatly reduced.

Description

technical field [0001] The invention relates to an AGM separator and a preparation method thereof, in particular to a nanoscale AGM separator and a preparation method thereof. Background technique [0002] The battery separator is a porous insulating material, which is placed between the positive and negative plates of the battery to separate the positive and negative plates and play the role of insulation to avoid short circuit of the battery. At the same time, the ions that participate in the chemical reaction are allowed to pass through during the charging and discharging process of the battery. For the sealed maintenance-free battery, it is also necessary to ensure that the oxygen precipitated from the positive electrode reaches the negative electrode through the separator to complete oxidation absorption. At present, the traditional separators commonly used in China include rubber separators, AGM separators, PVC separators, and PP separators. Among them, AGM separator ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B30/00
Inventor 陈照峰管胜男
Owner TAICANG PAIOU TECH CONSULTING SERVICE
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