CN111187079A - Preparation method of antibacterial neutral furnace lining material - Google Patents

Abstract

The invention relates to an antibacterial neutral furnace lining material, and belongs to the technical field of furnace building equipment manufacturing. The preparation method comprises the following steps: the antibacterial neutral furnace lining material is prepared by mixing, by weight, 10-20 parts of quartz particles with the particle size of 5-3 mm, 10-40 parts of quartz particles with the particle size of 3-1 mm, 10-35 parts of quartz particles with the particle size of 1-0.5 mm, 10-25 parts of quartz fine powder with the particle size of 200 meshes and 4-20 parts of nano-silver composite silicon carbide micro powder, firstly mixing 50-80 parts of aluminum-rich magnesium aluminate spinel aggregate and 20-50 parts of aluminum-rich magnesium aluminate spinel fine powder into a mixture, adding 4-6 parts of paper pulp waste liquid of the mixture, uniformly mixing, then adding 0.5-2 parts of an additive, and stirring for 15-30 min. The antibacterial neutral furnace lining material provided by the invention has the advantages that the prepared furnace lining has high corrosion resistance and wear resistance, the process is simple, the production cost is low, and the adopted raw materials are nontoxic and harmless, are environment-friendly and have no pollution.

Description

Preparation method of antibacterial neutral furnace lining material

Technical Field

The invention relates to an antibacterial neutral furnace lining material, and belongs to the technical field of furnace building equipment manufacturing.

Background

At present, the bottom of the lining material of the medium frequency induction furnace in the casting industry is seriously corroded in the using process. The scheme adopted is that the bottom of the electric furnace is thickened in the furnace building process, however, the bottom of the electric furnace is lost firstly in the using process, the upper part of the electric furnace is not lost too much, therefore, after repeated repairs, the loss of the lower part of the electric induction furnace is still far higher than that of the upper part, the upper part of the electric furnace is not utilized and discarded, and the circuit lining material is not utilized to the maximum extent.

The furnace lining material for the traditional medium-frequency induction furnace for smelting carbon steel is mainly prepared by mixing quartz serving as a main raw material and 3-5 parts by weight of boric acid serving as a sintering agent. Although quartz has a high melting point (1713 ℃), quartz can generate crystal transformation at different temperatures, so that the erosion resistance of a furnace lining material is reduced, and the erosion of the bottom of the furnace lining is further aggravated.

Disclosure of Invention

The invention aims to provide the antibacterial neutral furnace lining material which is simple in preparation method, high in corrosion resistance and wear resistance, simple in process, low in production cost, nontoxic and harmless in adopted raw materials, environment-friendly and pollution-free.

The invention provides a preparation method of an antibacterial neutral furnace lining material, which comprises the steps of mixing 10-20 parts by weight of quartz particles with the particle size of 5-3 mm, 10-40 parts by weight of quartz particles with the particle size of 3-1 mm, 10-35 parts by weight of quartz particles with the particle size of 1-0.5 mm, 10-25 parts by weight of quartz fine powder with the particle size of 200 meshes and 4-20 parts by weight of nano silver composite silicon carbide micro powder, mixing 50-80 parts by weight of aluminum-rich magnesium spinel aggregate and 20-50 parts by weight of aluminum-rich magnesium spinel fine powder into a mixture, adding 4-6 parts by weight of paper pulp waste liquid into the mixture, uniformly mixing, adding 0.5-2 parts by weight of additive, and stirring for 15-30 min to obtain the antibacterial neutral furnace lining material.

As a further improvement of the invention, the particle size of the SiO of quartz is 5-3 mm, 3-1 mm, 1-0.5 mm and 200 meshes₂The content is more than or equal to 98.5 weight portions.

As a further improvement of the invention, the additive is one or a mixture of more than one of boric acid and boric anhydride.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the antibacterial neutral furnace lining prepared by using quartz particles with different particle sizes, nano-silver composite silicon carbide particles, aluminum-rich magnesium aluminate spinel aggregate and aluminum-rich magnesium aluminate spinel fine powder as materials has excellent corrosion resistance and wear resistance, the lining is not easy to be lost by acid and alkali, the material adhesion is small, the stirring and mixing performance of the device can be improved, and the service life of the device can be prolonged;

2. the preparation process has short flow time, low operation cost, no environmental pollution of the used reagent, and environment friendship.

Detailed Description

Example 1:

the invention provides a preparation method of an antibacterial neutral furnace lining material, which comprises the steps of mixing 10 parts by weight of quartz particles with the granularity of 5mm, 10 parts by weight of quartz particles with the granularity of 3mm, 10 parts by weight of quartz particles with the granularity of 1mm, 10 parts by weight of quartz fine powder with the granularity of 200 meshes and 4 parts by weight of nano silver composite silicon carbide micro powder, mixing 50 parts by weight of aluminum-rich magnesium aluminate spinel aggregate and 20 parts by weight of aluminum-rich magnesium aluminate spinel fine powder into a mixture, adding 4 parts by weight of paper pulp waste liquid of the mixture, uniformly mixing, adding 0.5 part by weight of an additive, and stirring for 15min to obtain the antibacterial neutral furnace lining material.

As a further improvement of the present invention, the above-mentioned SiO particles of quartz having particle sizes of 5mm, 3mm, 1mm and 200 mesh are used₂The content is more than or equal to 98.5 weight portions.

As a further improvement of the invention, the additive is one or a mixture of more than one of boric acid and boric anhydride.

Example 2:

the invention provides a preparation method of an antibacterial neutral furnace lining material, which comprises the steps of mixing 20 parts by weight of quartz particles with the granularity of 3mm, 40 parts by weight of quartz particles with the granularity of 1mm, 35 parts by weight of quartz particles with the granularity of 0.5mm, 25 parts by weight of quartz fine powder with the granularity of 200 meshes and 20 parts by weight of nano-silver composite silicon carbide micro powder, mixing 80 parts by weight of aluminum-rich magnesium aluminate spinel aggregate and 50 parts by weight of aluminum-rich magnesium aluminate spinel fine powder into a mixture, adding 6 parts by weight of paper pulp waste liquid of the mixture, uniformly mixing, adding 2 parts by weight of an additive, and stirring for 30min to obtain the antibacterial neutral furnace lining material.

As a further improvement of the present invention, the above-mentioned SiO particle size of quartz is 3mm, 1mm, 0.5mm, 200 mesh₂The content is more than or equal to 98.5 weight portions.

As a further improvement of the invention, the additive is one or a mixture of more than one of boric acid and boric anhydride.

Example 3:

the invention provides a preparation method of an antibacterial neutral furnace lining material, which comprises the steps of mixing 60 parts by weight of aluminum-rich magnesium spinel aggregate and 35 parts by weight of aluminum-rich magnesium aluminate spinel fine powder into a mixture, adding 4-6 parts by weight of paper pulp waste liquid into the mixture, adding 1.5 parts by weight of an additive into the mixture, and stirring the mixture for 20 minutes to obtain the antibacterial neutral furnace lining material, wherein 15 parts by weight of quartz particles with the particle size of 4mm, 20 parts by weight of quartz particles with the particle size of 2mm, 25 parts by weight of quartz particles with the particle size of 0.8mm, 20 parts by weight of quartz fine powder with the particle size of 200 meshes and 15 parts by weight of nano-silver composite silicon carbide micro powder.

As a further improvement of the invention, the SiO particle size of the quartz is 4mm, 2mm, 0.8mm and 200 meshes₂The content is more than or equal to 98.5 weight portions.

As a further improvement of the invention, the additive is one or a mixture of more than one of boric acid and boric anhydride.

Claims (3)

1. A preparation method of an antibacterial neutral furnace lining material is characterized by comprising the following steps: the antibacterial neutral furnace lining material is prepared by mixing, by weight, 10-20 parts of quartz particles with the particle size of 5-3 mm, 10-40 parts of quartz particles with the particle size of 3-1 mm, 10-35 parts of quartz particles with the particle size of 1-0.5 mm, 10-25 parts of quartz fine powder with the particle size of 200 meshes and 4-20 parts of nano-silver composite silicon carbide micro powder, firstly mixing 50-80 parts of aluminum-rich magnesium aluminate spinel aggregate and 20-50 parts of aluminum-rich magnesium aluminate spinel fine powder into a mixture, adding 4-6 parts of paper pulp waste liquid of the mixture, uniformly mixing, then adding 0.5-2 parts of an additive, and stirring for 15-30 min.

2. The preparation method of the antibacterial neutral furnace lining material according to claim 1, characterized by comprising the following steps: the SiO of quartz with particle size of 5-3 mm, 3-1 mm, 1-0.5 mm and 200 meshes₂The content is more than or equal to 98.5 weight portions.

3. The preparation method of the antibacterial neutral furnace lining material according to claim 1 or 2, characterized by comprising the following steps: the additive is one or more of boric acid and boric anhydride.