CN116178031A - Insulating layer castable for aluminum ash rotary kiln and preparation method thereof - Google Patents

Abstract

The invention discloses an insulating layer castable for an aluminum ash rotary kiln and a preparation method thereof, wherein the insulating layer castable comprises the following raw materials in percentage by mass: 36-73% of flint clay, 5-20% of bauxite, 1-10% of silica powder, 20-30% of 725 cement and 2-18% of Guangxi white mud; and the additive sodium tripolyphosphate accounts for 0.1 to 0.4 percent of the total mass of the raw materials. The heat-insulating layer castable has the advantages of low volume density, low heat conductivity and high refractoriness, and can obviously improve heat-insulating performance and reduce heat dissipation when used at the heat-insulating layer part of the aluminum ash rotary kiln, thereby bringing considerable economic benefit.

Description

Insulating layer castable for aluminum ash rotary kiln and preparation method thereof

Technical Field

The invention relates to the field of refractory materials, in particular to an insulating layer castable for an aluminum ash rotary kiln and a preparation method thereof.

Background

The aluminum ash is scum generated when molten aluminum is smelted in a casting furnace, is industrial waste which directly or indirectly damages the environment, and is a renewable resource which can be comprehensively utilized. The aluminum slag is treated by ash treatment complete equipment such as a rotary kiln, a cold ash cylinder, an ash sieving machine and the like, so that the burning loss of aluminum in the aluminum slag can be reduced, the aluminum in the slag can be recovered, and waste is changed into valuable. The rotary kiln has high efficiency and high mechanization degree, and is a common method for treating aluminum ash for large enterprises.

The traditional insulating layer castable for the aluminum ash rotary kiln has the characteristics of low porosity, high density and high heat conductivity, so that the shell of the rotary kiln is higher in temperature, quicker in heat dissipation and increased in energy consumption cost in use, and is contrary to the current energy conservation and consumption reduction. The aluminum ash rotary kiln heat insulation layer has the characteristics of moderate porosity, low volume density, low heat conductivity and high refractoriness, and can obviously improve heat insulation performance and reduce heat dissipation when being used at the heat insulation layer part of the aluminum ash rotary kiln, thereby bringing considerable economic benefit.

Disclosure of Invention

The invention aims to solve the defects of the technical problems, and provides an insulating layer castable for an aluminum ash rotary kiln and a preparation method thereof.

In order to solve the defects of the technical problems, the invention adopts the following technical scheme:

the invention discloses an insulating layer castable for an aluminum ash rotary kiln, which is characterized by comprising the following raw materials in parts by mass: 36-73% of flint clay, 5-20% of bauxite, 1-10% of silica powder, 20-30% of 725 cement and 2-18% of Guangxi white mud; sodium tripolyphosphate as an additive accounting for 0.1-0.4% of the total mass of the raw materials;

the flint clay contains more than or equal to 45% of aluminum oxide, less than or equal to 1.2% of ferric oxide, and the volume density of the flint clay is more than or equal to 2.5g/cm ³ The granularity is 5-3mm, 3-1mm, 1-0mm and more than or equal to 200 meshes respectively;

the alumina contains more than or equal to 60% of aluminum oxide by mass, and the granularity of the alumina is more than or equal to 325 meshes;

the silicon micro powder contains more than or equal to 95% of silicon dioxide and less than or equal to 1% of ferric oxide by mass, and the PH value is 5-8;

the 725 cement is cement with the label of 725, and contains more than or equal to 50% of aluminum oxide, less than or equal to 2.5% of ferric oxide and less than or equal to 8% of silicon dioxide by mass;

the Guangxi white clay is soft spherical refractory clay containing more than or equal to 31% of aluminum oxide and less than or equal to 55% of silicon dioxide.

More specifically, the insulating layer castable for the aluminum ash rotary kiln comprises the following raw materials in percentage by mass: 10-20% of flint clay with granularity of 5-3mm, 10-25% of flint clay with granularity of 3-1mm, 8-15% of flint clay with granularity of 1-0mm and 8-13% of flint clay with granularity of more than or equal to 200 meshes; 5-20% of bauxite with particle size of more than or equal to 325 meshes, 1-10% of silica micropowder, 20-30% of 725 cement and 2-18% of Guangxi white mud; and the additive sodium tripolyphosphate accounts for 0.1 to 0.4 percent of the total mass of the raw materials.

The invention relates to a preparation method of an insulating layer castable for an aluminum ash rotary kiln, which is characterized by comprising the following steps:

(1) The flint clay with granularity of 5-3mm, 3-1mm and 1-0mm is used as aggregate of the castable of the heat insulation layer, and other raw materials are powder materials;

(2) Firstly, adding all powder materials into a stirrer, and dry-mixing for at least 30 seconds; adding all aggregate, and continuously dry-mixing for at least 30 seconds; adding a proper amount of water, wet mixing for 120-180 seconds to uniformly stir the materials, and then vibrating and forming the materials on a vibrating table to prepare a strip-shaped sample;

(3) Naturally drying the sample at room temperature for 24 hours, demoulding, and drying at 105-110 ℃ for 20-30 hours to obtain the heat preservation castable.

Compared with the prior art, the invention has the following advantages:

the heat-insulating layer castable has the advantages of low volume density, low heat conductivity and high refractoriness, and can obviously improve heat-insulating performance and reduce heat dissipation when used at the heat-insulating layer part of the aluminum ash rotary kiln, thereby bringing considerable economic benefit.

Detailed Description

The invention is further illustrated by the following specific embodiments, which are intended to be illustrative of the invention and not limiting.

Example 1

The insulating layer castable for the aluminum ash rotary kiln comprises the following components in parts by mass: 15% of flint clay with granularity of 5-3mm, 15% of flint clay with granularity of 3-1mm, 12% of flint clay with granularity of 1-0mm, 12% of flint clay with granularity of more than or equal to 200 meshes, 12% of alumina with granularity of 325 meshes, 6% of silica powder, 26% of 725 cement and 3% of Guangxi white mud; an additive sodium tripolyphosphate accounting for 0.2% of the total mass of the raw materials;

the preparation method comprises the following steps:

(1) The flint clay with granularity of 5-3mm, 3-1mm and 1-0mm is used as aggregate of the castable of the heat insulation layer, and other raw materials are powder materials;

(2) Firstly, adding all powder materials into a stirrer, and dry-mixing for 30 seconds; adding all aggregate, and continuously dry-mixing for 30 seconds; adding a proper amount of water, wet mixing for 120 seconds to uniformly stir the materials, and vibrating the materials on a vibrating table for 60 seconds to form a strip sample with the thickness of 40mm multiplied by 160 mm;

(3) And naturally drying the sample at room temperature for 24 hours, demolding, and then preserving heat at 110 ℃ for 24 hours to obtain the heat preservation castable.

Example 2

The insulating layer castable for the aluminum ash rotary kiln comprises the following components in parts by mass: 15% of flint clay with granularity of 5-3mm, 25% of flint clay with granularity of 3-1mm, 8% of flint clay with granularity of 1-0mm and 8% of flint clay with granularity of more than or equal to 200 meshes; alumina with granularity of 325 meshes 10%, silicon micropowder 6%,725 cement 25% and Guangxi white mud 3%; an additive sodium tripolyphosphate accounting for 0.2% of the total mass of the raw materials; the preparation method is the same as in example 1.

Example 3

The insulating layer castable for the aluminum ash rotary kiln comprises the following components in parts by mass: 10% of flint clay with granularity of 5-3mm, 20% of flint clay with granularity of 3-1mm, 15% of flint clay with granularity of 1-0mm and 13% of flint clay with granularity of more than or equal to 200 meshes; alumina with granularity of 325 meshes is 8%, silica micropowder is 6%,725 cement is 25% and Guangxi white mud is 3%; an additive sodium tripolyphosphate accounting for 0.2% of the total mass of the raw materials; the preparation method is the same as in example 1.

Example 4

The insulating layer castable for the aluminum ash rotary kiln comprises the following components in parts by mass: 20% of flint clay with granularity of 5-3mm, 10% of flint clay with granularity of 3-1mm, 10% of flint clay with granularity of 1-0mm and 10% of flint clay with granularity of more than or equal to 200 meshes; alumina with granularity of 325 meshes 10%, silica micropowder 5%,725 cement 20% and Guangxi white mud 15%; an additive sodium tripolyphosphate accounting for 0.3 percent of the total mass of the raw materials; the preparation method is the same as in example 1.

The insulating layer castable obtained in examples 1 to 4 was examined, and the results are shown in Table 1.

Table 1 test results of the insulation castable of examples 1 to 4

As can be seen from Table 1, compared with the existing scheme, the volume density of the castable for the heat preservation layer prepared by the invention is lower than 1.5g/cm ³ The heat conductivity coefficient is lower than 0.7W/(m.K) at 1000 ℃, and the shell temperature of the rotary kiln is lower than 30-40 ℃ in the prior art in actual use, thus having considerable economic benefit.

Claims (7)

1. The insulating layer castable for the aluminum ash rotary kiln is characterized by comprising the following raw materials in percentage by mass: 36-73% of flint clay, 5-20% of bauxite, 1-10% of silica powder, 20-30% of 725 cement and 2-18% of Guangxi white mud; and the additive sodium tripolyphosphate accounts for 0.1 to 0.4 percent of the total mass of the raw materials.

2. The castable for the heat insulation layer for the aluminum ash rotary kiln according to claim 1, wherein the flint clay contains more than or equal to 45% of aluminum oxide, less than or equal to 1.2% of ferric oxide, and has a volume density of more than or equal to 2.5g/cm ³ The granularity is 5-3mm, 3-1mm, 1-0mm and more than or equal to 200 meshes respectively.

3. The castable for the heat insulation layer for the aluminum ash rotary kiln according to claim 1, wherein the alumina contains more than or equal to 60% by mass of aluminum oxide, and the granularity of the alumina is more than or equal to 325 meshes; the silicon micropowder contains more than or equal to 95% of silicon dioxide and less than or equal to 1% of ferric oxide by mass, and the PH value is 5-8.

4. The castable for the insulating layer for the aluminum ash rotary kiln according to claim 1, wherein 725 cement is cement with a label of 725, and contains more than or equal to 50% of aluminum oxide, less than or equal to 2.5% of ferric oxide and less than or equal to 8% of silicon dioxide by mass.

5. The castable for the heat insulation layer for the aluminum ash rotary kiln according to claim 1, wherein the Guangxi white clay is soft spherical refractory clay containing more than or equal to 31% of aluminum oxide and less than or equal to 55% of silicon dioxide.

6. The castable for the heat insulation layer for the aluminum ash rotary kiln according to claim 1, wherein flint clay with the granularity of 5-3mm is 10-20%, flint clay with the granularity of 3-1mm is 10-25%, flint clay with the granularity of 1-0mm is 8-15%, and flint clay with the granularity of more than or equal to 200 meshes is 8-13%; 5-20% of bauxite with particle size of more than or equal to 325 meshes, 1-10% of silica micropowder, 20-30% of 725 cement and 2-18% of Guangxi white mud; and the additive sodium tripolyphosphate accounts for 0.1 to 0.4 percent of the total mass of the raw materials.

7. The method for preparing the insulating layer castable for the aluminum ash rotary kiln according to any one of claims 1 to 6, characterized by comprising the following steps:

(1) The flint clay with granularity of 5-3mm, 3-1mm and 1-0mm is used as aggregate of the castable of the heat insulation layer, and other raw materials are powder materials;

(2) Firstly, adding all powder materials into a stirrer, and dry-mixing for at least 30 seconds; adding all aggregate, and continuously dry-mixing for at least 30 seconds; adding a proper amount of water, wet mixing for 120-180 seconds to uniformly stir the materials, and then vibrating and forming the materials on a vibrating table to prepare a strip-shaped sample;

(3) Naturally drying the sample at room temperature for 24 hours, demoulding, and drying at 105-110 ℃ for 20-30 hours to obtain the heat preservation castable.