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Roasting sagger for circulating type lithium battery anode material and preparation method thereof

A positive electrode material, lithium battery technology, applied in the direction of electrode manufacturing, lighting and heating equipment, furnace components, etc., can solve the problems of peeling, scrapping after 20-30 times of use, low yield, etc., and achieve simple manufacturing process and structure , Avoid pollution of lithium battery materials, not easy to peel off and delaminate

Active Publication Date: 2013-09-18
李艳晖
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, lithium battery cathode materials are calcined at high temperature by using saggers to carry materials. Generally, saggers are used to carry lithium carbonate and metal oxides (manganese, cobalt, nickel, etc.) for high-temperature reaction. Li 2 O has a certain chemical reaction with the acidic oxide silica and amphoteric oxide aluminum oxide in the surface layer of the sagger to produce a glassy substance, the main components of which are (LiAlO 2、 Li 2 OSoO 2 , Li 4 SiO 4 , LiAlSiO 4、 (LiCoO 2 ).RR, Li 2 4Mg 0.8 SiO 4 etc.), the average index of sagger consumption at home and abroad is 200-300 kg per ton of positive electrode materials. In 2011 alone, more than 34,000 tons of saggers were consumed in the production of positive electrode materials for lithium batteries in China. Saggers are reused by cold and hot. Generally, it will be scrapped after 20-30 times of use
Existing saggers generally have two structures, one is made of a composite material with a single structure, but this kind of sagger will be infiltrated and polluted by the positive electrode material of the lithium battery after use, resulting in a small amount of dust on the surface of the sagger The positive electrode material cannot be cleaned up and can only be buried. In this way, the discarded sagger becomes industrial waste. Once buried underground, it will inevitably cause heavy metal pollution, while the other is divided into two layers. structure, that is, spraying on the surface of the substrate layer, but after this structure is used for a certain number of times, the physical and chemical properties of the sprayed layer on the surface of the sagger and the substrate will change, and the surface of the sagger will start to peel off, which will not only pollute the positive electrode material It is relatively low, and it is easy to cause safety accidents of subsequent lithium batteries

Method used

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Effect test

preparation example Construction

[0040] The preparation method of sagger of the present invention comprises the following steps:

[0041] (1) To make the matrix layer 1, first mix mullite, cordierite, alumina, corundum, kaolin, activated magnesia, spodumene, and binder evenly, add water and stir for 20 to 40 minutes, and mix the above mixed materials according to The weight is added to the metal mold, pressurized by the press molding equipment at room temperature for 5-20 seconds, and the green body is pressed and formed;

[0042] (2) Prepare a zirconium-containing composite layer 2, mix zirconia, spodumene, cerium oxide, corundum, and a binder evenly, add water and stir for 10 to 20 minutes, and then distribute the above materials evenly on the raw material by a distributor or manually. The surface of the billet is pressed again by the press molding equipment to obtain the semi-finished sagger;

[0043] (3) After drying the semi-finished saggar, it is fired under the conditions of a temperature of 1300±50° ...

Embodiment 1

[0046] The zirconium-containing composite layer 2 consists of the following components in parts by weight:

[0047] 70 parts of zirconia, 5 parts of cerium oxide

[0048] Spodumene 10 parts Corundum 15 parts

[0049] Wherein, the binder is 3 parts of the total mass of the above-mentioned zirconia, cerium oxide, spodumene and corundum, and the water is 5 parts of the total mass of the above-mentioned zirconia, cerium oxide, spodumene and corundum.

[0050] The base layer 1 consists of the following components in parts by weight:

[0051] Cordierite 10 parts Mullite 20 parts

[0052] Corundum 25 parts Aluminum oxide 25 parts

[0053] Kaolin 10 parts Active magnesium oxide 10 parts

[0054] Spodumene 10 parts

[0055] Wherein, the binder is 3 parts of the total mass of the above-mentioned zirconia, cerium oxide, spodumene and corundum, and the water is 5 parts of the total mass of the above-mentioned zirconia, cerium o...

Embodiment 2

[0057] The zirconium-containing composite layer 2 consists of the following components in parts by weight:

[0058] 80 parts of zirconia, 2 parts of cerium oxide

[0059] Spodumene 5 parts Corundum 13 parts

[0060] Wherein, the binder is 5 parts of the total mass of the above-mentioned zirconia, cerium oxide, spodumene, and corundum, and the water is 8 parts of the total mass of the above-mentioned zirconia, cerium oxide, spodumene, and corundum.

[0061] The base layer 1 consists of the following components in parts by weight:

[0062] Cordierite 50 parts Mullite 13 parts

[0063] Corundum 12 parts Aluminum oxide 12 parts

[0064] Kaolin 8 parts Active Magnesium Oxide 7 parts

[0065] 7 parts spodumene

[0066] Wherein, the binder is 5 parts of the total mass of the above-mentioned zirconia, cerium oxide, spodumene, and corundum, and the water is 8 parts of the total mass of the above-mentioned zirconia, cerium ox...

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Abstract

The invention discloses and provides a roasting sagger for a circulating type lithium battery anode material, which is simple in manufacturing process and structure, does not easily react with a lithium battery material, can avoid polluting the lithium battery material, does not pollute the environment and can be recycled, and a preparation method thereof. The preparation method of the roasting sagger for the circulating type lithium battery anode material comprises the following steps of: (1) uniformly mixing mullite, cordierite, aluminum oxide, corundum, kaolin, active magnesium oxide, spodumene and a bonding agent; adding the materials into a metal mould according to the weight; and pressing and molding a blank by pressing and molding equipment; (2) uniformly mixing zirconium oxide, the spodumene, cerium oxide, the corundum and the bonding agent; uniformly distributing the materials on the surface of the blank by a material distribution machine or manpower and pressing again by the pressing and molding equipment to obtain a semi-finished sagger product; and (3) drying the sagger semi-finished product and sintering. The roasting sagger disclosed by the invention can be widely applied to the field of the sagger for the lithium battery anode material.

Description

technical field [0001] The invention relates to a roasting sagger for a circulating lithium battery cathode material and a preparation method thereof. Background technique [0002] At present, lithium battery cathode materials are calcined at high temperature by using saggers to carry materials. Generally, saggers are used to carry lithium carbonate and metal oxides (manganese, cobalt, nickel, etc.) for high-temperature reaction. Li 2 O has a certain chemical reaction with the acidic oxide silica and amphoteric oxide aluminum oxide in the surface layer of the sagger to produce a glassy substance, the main components of which are (LiAlO 2、 Li 2 OSoO 2 , Li 4 SiO 4 , LiAlSiO 4、 (LiCoO 2 ).RR, Li 2 4Mg 0.8 SiO 4 etc.), the average index of sagger consumption at home and abroad is 200-300 kg per ton of positive electrode materials. In 2011 alone, more than 34,000 tons of saggers were consumed in the production of positive electrode materials for lithium batteries in C...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/04F27D5/00C04B35/119
CPCY02E60/10
Inventor 李艳晖
Owner 李艳晖
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