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Spherical graphite with median diameter of 17 to 30 mu m and preparation method thereof

A spherical graphite, median diameter technology, applied in electrical components, battery electrodes, circuits, etc., can solve the problem of battery charging and discharging time, standby time, unsatisfactory service life, low spherical graphite sphericity, low safety and practicability and other issues, to achieve the effects of good safety and practicability, good chemical and thermal stability, and improved reversible capacity and Coulombic efficiency.

Active Publication Date: 2010-10-06
LUOYANG GUANQI INDAL & TRADE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, due to the limitation of its preparation process, the existing spherical graphite has low production yield, high energy consumption and high cost, and the sphericity of the obtained spherical graphite is not high, the performance of the product is not ideal, and it cannot meet the needs of technological development, resulting in The charging and discharging time, standby time and service life of the battery are not ideal
When used as a power car battery, it also leads to small storage capacity, easy to overheat, low safety and practicability

Method used

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Examples

Experimental program
Comparison scheme
Effect test

preparation example Construction

[0021] The preparation method of spherical graphite with a median diameter of 17-30 μm adopts a five-stage powder refinement unit composed of an airflow vortex powder refiner and a cyclone separator, and an airflow vortex spheroidizer and a spheroidizer The 14-stage spheroidizing units are connected in series. The graphite raw material enters from the first powder refining unit, flows through five powder refining units and 14 spheroidizing units in turn, and then the last spheroidizing unit Outflow, the graphite raw material undergoes powder refinement and spheroidization process to obtain spherical graphite products. The number of sets of powder refining units and spheroidizing units can also be adjusted according to needs. The prepared spherical graphite product has a closed end structure on the surface, the shape of the graphite powder is spherical, the surface has openings, its bulk density is 0.5-0.88g / ml, and the number of openings on the surface of the graphite powder i...

Embodiment 1

[0024] The preparation steps of spherical graphite with a median diameter of 30 μm are as follows:

[0025] Step 1. Send the natural flake graphite raw material with a particle size of 50 mesh to 325 mesh and a carbon content > 60% into the airflow vortex powder refiner in the first group of powder refinement units to implement powder refinement. During the refining process, the speed of the powder refining disc in the airflow vortex powder refiner is 2200r / min, the speed of the impeller of the inner classifier in the airflow vortex powder refiner is 50r / min, and the graphite powder enters the airflow vortex It takes 40 seconds for the powder refiner to flow out, and then the graphite powder flowing out is sent to the airflow vortex separator for separation, and the graphite powder with a particle size > 10 μm is separated;

[0026] Step 2. The graphite powder with a particle size > 10 μm separated from step 1 is sent to the airflow vortex powder refiner in the second group of...

Embodiment 2

[0039] The spherical graphite whose median diameter is 25 μm, its preparation steps are as follows:

[0040] Step 1. Send the natural flake graphite raw material with a particle size of 50 mesh to 325 mesh and a carbon content > 60% into the airflow vortex powder refiner in the first group of powder refinement units for powder refinement In the process, the speed of the powder refinement plate in the airflow vortex powder refiner is 2000r / min, the speed of the inner classifier impeller in the airflow vortex powder refiner is 130r / min, and the graphite powder enters the airflow vortex It takes 30 seconds for the powder refiner to flow out, and then the graphite powder flowing out is sent to the airflow vortex separator for separation, and the graphite powder with a particle size > 9 μm is separated;

[0041]Step 2. The graphite powder with a particle size > 9 μm separated from step 1 is sent to the airflow vortex powder refiner in the second group of powder refinement units to ...

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Abstract

The invention discloses a preparation method of spherical graphite by natural crystalline flake graphite with a median diameter of 3 to 10 mu m. A five-level powder refining machine set consisting of an air-flow vortex powder refining machine and a cyclone separator is sequentially connected with a fourteen-level nodulizing machine set consisting of an air-flow vortex nodulizing machine and a nodulizing classifier in series; the graphite material enters from the first powder refining machine set and then flows through the five powder refining machine sets and the fourteen nodulizing machine sets in turn and finally out of the last nodulizing machine set; and by refining and nodulizing the powder, the spherical graphite product is obtained. The spherical graphite product has a surface closed end part structure, is spherical, and has the specific surface area of 8.0 to 12m2 / g. The number of openings on the surface of the graphite powder is 9-80 per mu m. The sphericity of the product is high; the battery capacity, the standby time and the service life are effectively increased; moreover, the preparation method can improve the yield by over 80 percent, lower the cost by 40 to 50 percent, save the power consumption by 55 percent and realize the dust recovery rate up to 100%.

Description

technical field [0001] The invention relates to a graphite powder, specifically a spherical graphite with a median diameter of 17-30 μm and a preparation method thereof Background technique [0002] As a negative electrode material for lithium ion batteries, graphite material has the advantages of good conductivity, excellent charge and discharge voltage platform, high specific capacity and low price, so it has always been a research hotspot of negative electrode materials and has been used in commercial lithium ion batteries. widely used. Many studies have shown that the shape, crystal structure, surface structure, and impurity content of graphite particles are closely related to the lithium intercalation performance of graphite materials. However, the sources and processing processes of graphite are different, and its physical and chemical properties are also different. Therefore, in order to obtain graphite anode materials with good lithium intercalation performance in t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01B31/04H01M4/1393
CPCY02E60/12Y02E60/122Y02E60/10
Inventor 侯玉奇
Owner LUOYANG GUANQI INDAL & TRADE
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