CN105503222B - A kind of composite refractory brick containing floating bead - Google Patents

Abstract

The present invention relates to a kind of composite refractory brick containing floating bead, including heavy flame retardant coating and lightweight thermal insulation layer, the heavy flame retardant coating includes：Fused white corundum 20wt%~50wt%, electrofused mullite 10wt%~30wt%, andalusite 10wt%~25wt%, silicon carbide 10wt%~20wt%, clay 6wt%~15wt%, alumina powder 4wt%~10wt%, calcium lignosulfonate 3wt%~6wt%, yellow starch gum 1wt%~3wt%, silicon powder 1wt%~4wt%；The lightweight thermal insulation layer includes：Fused white corundum 8wt%~30wt%, electrofused mullite 9wt%~25wt%, andalusite 4wt%~15wt%, silicon carbide 10wt%~20wt%, clay 6wt%~15wt%, alumina powder 4wt%~10wt%, calcium lignosulfonate 3wt%~6wt%, yellow starch gum 1wt%~3wt%, silicon powder 1wt%~4wt%；The lightweight thermal insulation layer also includes the floating bead of 15wt%~25wt%.The invention further relates to a kind of production technologies of the composite refractory brick containing floating bead.The present invention overcomes because material composition it is different caused by faying face easy fracture the problem of, a kind of composite refractory brick and its production technology containing floating bead is provided.

Description

A kind of composite refractory brick containing floating bead

Technical field

The present invention relates to fire resisting material field more particularly to a kind of composite refractory bricks containing floating bead.

Background technique

China's economic development is rapid, and the development of production of energy relatively lags behind much.China's economy keeps 9% increasing for a long time Long speed, and disposable production of energy amount growth rate is then held only in 4% or so.Another method for solving energy shortage is section Can, that is, the utilization efficiency for reducing heat loss, improving thermal energy reduces energy waste.Energy conservation project is considered as " the 5th energy in the world Source ", meaning are particularly significant.It is calculated according to national departments concerned, all kinds of kilns in China and heat supply pipeline are not good at due to keeping the temperature, every year Equivalent about 3000~40,000,000 tons of coal of the mark of heat loss.Be transformed using novel heat insulation technology and equipment, make these kilns and Heat supply pipeline reduce heat loss 20~30% be it is entirely possible, this will make China saves every year mark coal 600~8,000,000 ton.

The accumulation of heat and radiation loss of liner of industry kiln heat-insulating material typically constitute from the 20~45% of Industrial Stoves total energy consumption. Traditional industry stove is to achieve the purpose that heat preservation energy-saving, is usually constructed in heavy refractory brick marshalling or heavy unshape refractory It is external to increase insulating layer.Due to needing two layers of masonry, the time of construction and expense is caused to increase, and kiln volume becomes huge Greatly, heavy.

Disclosed on March 25th, 2015 application No. is 201420551368.2 utility model disclose it is a kind of compound resistance to Firebrick structure combines heavy material thermal insulation layer and light material insulating layer by concave-convex faying face, in same masonry On realize it is heat-insulated and heat preservation effect, reduce time and the expense of construction, but also kiln body need not become bulky and hulking. But such combination, due to two composition of layer difference, Thermal Contraction Coefficient difference is larger, be easy to cause faying face disconnected in use It splits, is easy to appear accident, the continuous production for being also unfavorable for factory obtains its maximum economic benefit.

Summary of the invention

The purpose of the present invention is in view of the deficiencies of the prior art, overcome because material composition difference causes faying face easily broken The problem of splitting provides a kind of composite refractory brick containing floating bead.

A kind of composite refractory brick containing floating bead, including heavy flame retardant coating and lightweight thermal insulation layer.The material of the heavy flame retardant coating The main material of material and lightweight thermal insulation layer is completely the same, and the heavy flame retardant coating includes：Fused white corundum 20wt%~50wt%, Electrofused mullite 10wt%~30wt%, andalusite 10wt%~25wt%, silicon carbide 10wt%~20wt%, clay 6wt% ~15wt%, alumina powder 4wt%~10wt%, calcium lignosulfonate 3wt%~6wt%, yellow starch gum 1wt%~3wt%, silicon powder 1wt% ~4wt%；The lightweight thermal insulation layer mainly includes：Fused white corundum 8wt%~30wt%, electrofused mullite 9wt%~ 25wt%, andalusite 4wt%~15wt%, silicon carbide 10wt%~20wt%, clay 6wt%~15wt%, alumina powder 4wt%~10wt%, calcium lignosulfonate 3wt%~6wt%, yellow starch gum 1wt%~3wt%, silicon powder 1wt%~4wt%；The lightweight is protected Warm layer also includes the floating bead of 15wt%~25wt%；The thickness proportion of the heavy flame retardant coating and lightweight thermal insulation layer is 1~2:3~ 4；The faying face of the heavy flame retardant coating and lightweight thermal insulation layer is in plane faying face, zigzag faying face or concave-convex faying face Any one.

As an improvement, the silicon powder is metallurgical level-one, silicone content >=98.5%；Granularity≤0.8 μm of the silicon powder.

As an improvement, the granularity of the alumina powder is 10~20 μm.

As an improvement, the heavy flame retardant coating and lightweight thermal insulation layer are combined together with up-down structure.

As an improvement, the heavy flame retardant coating and lightweight thermal insulation layer are combined together with tiled configuration.

Beneficial effects of the present invention：

(1) the present invention provides a kind of composite refractory bricks containing floating bead, due to its heavy flame retardant coating and common heavy fire resisting Brick similar performance has the advantages of common heavy refractory brick resistance to erosion, high temperature resistant, corrosion-resistant and heat shock resistance.

(2) the present invention provides a kind of composite refractory bricks containing floating bead, due to joined floating bead in its lightweight thermal insulation layer, and Floating bead thermal conductivity is low and belongs to hollow sphere, so that lightweight thermal insulation layer thermal conductivity substantially reduces, has the excellent of common insulating layer heat preservation Point, while using floating bead as pore creating material compared with commonly burning mistake pore creating material, it can solve during commonly burning mistake pore creating material burning mistake Because of the pollution problem of not exclusively combustion baked generation.

(3) the present invention provides a kind of composite refractory brick containing floating bead, due to wherein joined silicon carbide, and silicon carbide Infrared radiation property is superior, so that the principle that composite refractory brick can use infrared radiation under high-temperature work environment is more effective And uniformly the heated material in kiln is heated, while the received heat of composite refractory brick can be reduced；Composite refractory brick In silicon powder can be used as reducing agent silicon carbide effectively avoided to decompose under high temperature and oxidation environment, reduce its infrared emissivity Energy.

(4) the present invention provides a kind of composite refractory bricks containing floating bead, due to its heavy flame retardant coating and lightweight thermal insulation layer master Want composite material consistent, Thermal Contraction Coefficient is close, so that the stress between two layer components becomes very little under working condition, knot Conjunction face is firmly combined the problem of being less prone to faying face fracture.

(5) the present invention provides a kind of composite refractory bricks containing floating bead, since it is provided simultaneously with heat-insulated and heat preservation effect, So that only needing one layer of masonry when using and constructing, time and the expense of construction are reduced, material and resource are also saved, Discharge is reduced, while the accumulation of heat and radiation loss of Industrial Stoves can also be further decreased.

It is another object of the present invention in view of the deficiencies of the prior art, overcome because material composition difference leads to faying face The problem of easy fracture, provides a kind of production technology of composite refractory brick containing floating bead.

A kind of production technology of the composite refractory brick containing floating bead, including：Raw material processing-ingredient-kneading-molding-is dry Dry-firing-inspection-warehousing finished products, it is characterised in that：

A. in proportioning process, the ingredient of ingredient and lightweight thermal insulation layer including heavy flame retardant coating, heavy flame retardant coating and lightweight Insulating layer is individually separated carry out ingredient；The heavy flame retardant coating includes：Fused white corundum, electrofused mullite, andalusite, carbonization Silicon, clay, alumina powder, calcium lignosulfonate, yellow starch gum, silicon powder；The lightweight thermal insulation layer includes：It is fused white corundum, electrofused mullite, red Pillar, silicon carbide, clay, alumina powder, calcium lignosulfonate, yellow starch gum, silicon powder；The lightweight thermal insulation layer also includes floating bead；

B. it is kneaded in technique, by the heavy flame retardant coating for completing proportioning process and completes the lightweight thermal insulation layer of proportioning process respectively Separately it is stirred；

C. it in moulding process, is suppressed by the heavy flame retardant coating by being kneaded technique and by the lightweight thermal insulation layer of calendering process Integrally, contact surface is formed between heavy flame retardant coating and lightweight thermal insulation layer；

D. in drying process, the drying process is divided into two stages, and the first stage is demoulding drying, drying temperature 55 DEG C, drying time 18h；Second stage is force drying, and drying temperature is 90 DEG C, drying time 16h, adobe water after drying Divide mass content control below 6%；

E. in firing process, the composite refractory brick for completing drying process is packed into high temperature kiln, is heated to 1500 from room temperature DEG C, 8h is kept the temperature, firing process is completed.

As an improvement, the heavy flame retardant coating and lightweight thermal insulation layer are combined together with up-down structure.

As an improvement, the heavy flame retardant coating and lightweight thermal insulation layer are combined together with tiled configuration.

As an improvement, the heavy flame retardant coating and lightweight thermal insulation layer are once suppressed integrally, pressing pressure is 3.2~ 3.6t, compacting number are 4~6 times.

Beneficial effects of the present invention：

(1) the present invention provides a kind of production technology of composite refractory brick containing floating bead, due to its heavy flame retardant coating with it is general Logical heavy refractory brick similar performance, has the advantages of common heavy refractory brick resistance to erosion, high temperature resistant, corrosion-resistant and heat shock resistance. Simultaneously as joined floating bead in its lightweight thermal insulation layer, and floating bead thermal conductivity is low and belongs to hollow sphere, so that lightweight thermal insulation layer is led Heating rate substantially reduces, and has the advantages of common insulating layer heat preservation, while losing pore creating material phase with common burn using floating bead as pore creating material Than can solve the common pollution problem burnt during mistake pore creating material burning is lost because of not exclusively combustion baked generation.In this way, utilizing described one The composite refractory brick containing floating bead that the production technology of composite refractory brick of the kind containing floating bead is manufactured is provided simultaneously with heat-insulated and heat preservation Effect reduce time and the expense of construction so that only needing one layer of masonry when using and constructing, also save material And resource, discharge is reduced, while the accumulation of heat and radiation loss of Industrial Stoves can also be further decreased.

(2) the present invention provides a kind of production technologies of composite refractory brick containing floating bead, due to its heavy flame retardant coating and gently Vacuum layer basis material is consistent, keeps its Thermal Contraction Coefficient close, so that the stress under working condition, between two layer components Become very little, faying face is firmly combined the problem of being less prone to faying face fracture.

(3) the present invention provides a kind of production technologies of composite refractory brick containing floating bead, due to drying process in the present invention It is dried using two stages, first demoulds drying, this stage raw brick moisture content is big, need to control drying temperature, prevents moisture sharply It is discharged and causes adobe cracked；Then force drying, control green body moisture reach requirement, to guarantee the matter of product after being sintered Amount.Demoulding the dry time simultaneously is 18h, so that faying face can use the infiltration and expansion between this period of time progress molecule It dissipates to further strengthen the bond strength of faying face.

Detailed description of the invention

Illustrate technical solution of the present invention in order to clearer, it below will be to attached drawing needed in embodiment description It is briefly described, it should be apparent that, drawings discussed below is only some embodiments of the present invention, for the general of this field For logical technical staff, without creative efforts, it can also be obtained according to these attached drawings other accompanying drawings.

Fig. 1 is the composite fire brick structure A schematic diagram containing floating bead.

Fig. 2 is the composite fire brick structure B schematic diagram containing floating bead.

Fig. 3 is the composite refractory brick zigzag faying face schematic shapes containing floating bead.

Fig. 4 is the composite refractory brick concave-convex faying face schematic shapes containing floating bead.

Fig. 5 is the composite refractory brick cross-sectional view containing floating bead.

Label declaration：

1. heavy flame retardant coating, 2. lightweight thermal insulation layers, 3. faying faces.

Specific embodiment

Technical solution of the present invention is clearly and completely illustrated with reference to the accompanying drawing.

Embodiment one

Fig. 1 is the composite fire brick structure A schematic diagram containing floating bead.Contain as shown in Figure 1, providing one kind in the present embodiment The composite refractory brick of floating bead, including heavy flame retardant coating 1 and lightweight thermal insulation layer 2；The heavy flame retardant coating 1 includes：Fused white corundum 50wt%, electrofused mullite 15wt%, andalusite 10wt%, silicon carbide 10wt%, clay 6wt%, alumina powder 4wt%, wood Calcium 3wt%, yellow starch gum 1wt%, silicon powder 1wt%；The lightweight thermal insulation layer 2 includes：Fused white corundum 30wt%, electrofused mullite 9wt%, andalusite 15wt%, silicon carbide 15wt%, clay 6wt%, alumina powder 4wt%, calcium lignosulfonate 3wt%, yellow starch gum 1wt%, silicon powder 2wt%；The lightweight thermal insulation layer 2 also includes the floating bead of 15wt%.

The silicon powder is metallurgical level-one, silicone content >=98.5%；Granularity≤0.8 μm of the silicon powder；The aluminium oxide The granularity of powder is 10 μm；The heavy flame retardant coating 1 and lightweight thermal insulation layer 2 are combined together with up-down structure, and the heavy is resistance to The faying face 3 of fire bed 1 and lightweight thermal insulation layer 2 is plane faying face, the thickness ratio of the heavy flame retardant coating 1 and lightweight thermal insulation layer 2 Example is 2:3.

Embodiment two

Fig. 2 is that composite fire brick structure B schematic diagram, Fig. 3 containing floating bead are that the composite refractory brick zigzag containing floating bead combines Face schematic shapes, Fig. 5 are the composite refractory brick cross-sectional view containing floating bead.As shown in Fig. 2, Fig. 3 and Fig. 5, provided in the present embodiment Be a kind of composite refractory brick containing floating bead, including heavy flame retardant coating 1 and lightweight thermal insulation layer 2；The heavy flame retardant coating 1 and lightweight The faying face 3 of insulating layer 2 is zigzag faying face；The heavy flame retardant coating 1 includes：Fused white corundum 20wt%, electric smelting do not come Stone 30wt%, andalusite 12wt%, silicon carbide 15wt%, clay 8wt%, alumina powder 6wt%, calcium lignosulfonate 4wt%, yellow starch gum 2wt%, silicon powder 3wt%；The lightweight thermal insulation layer 2 includes：Fused white corundum 8wt%, electrofused mullite 25wt%, andalusite 4wt%, silicon carbide 15wt%, clay 9wt%, alumina powder 5wt%, calcium lignosulfonate 6wt%, yellow starch gum 2wt%, silicon powder 1wt%；Institute Lightweight thermal insulation layer 2 is stated also comprising the floating bead of 25wt%.

The silicon powder is metallurgical level-one, silicone content >=98.5%；Granularity≤0.8 μm of the silicon powder；The aluminium oxide The granularity of powder is 20 μm；The heavy flame retardant coating 1 and lightweight thermal insulation layer 2 are combined together with tiled configuration, and the heavy is resistance to The thickness proportion of fire bed 1 and lightweight thermal insulation layer 2 is 1:4.

Embodiment three

Fig. 1 is that composite fire brick structure A schematic diagram, Fig. 4 containing floating bead are that the composite refractory brick concave-convex containing floating bead combines Face schematic shapes.A kind of composite refractory brick containing floating bead, including heavy are provided as shown in Fig. 1 and Fig. 4, in the present embodiment Flame retardant coating 1 and lightweight thermal insulation layer 2；The faying face 3 of the heavy flame retardant coating 1 and lightweight thermal insulation layer 2 is concave-convex faying face；It is described Heavy flame retardant coating 1 includes：Fused white corundum 30wt%, electrofused mullite 11wt%, andalusite 11wt%, silicon carbide 10wt%, Clay 15wt%, alumina powder 10wt%, calcium lignosulfonate 6wt%, yellow starch gum 3wt%, silicon powder 4wt%；The lightweight thermal insulation layer 2 wraps It includes：Fused white corundum 10wt%, electrofused mullite 10wt%, andalusite 8wt%, silicon carbide 20wt%, clay 15wt%, oxidation Aluminium powder 10wt%, calcium lignosulfonate 5wt%, yellow starch gum 3wt%, silicon powder 4wt%；The lightweight thermal insulation layer 2 also includes the floating bead of 15wt%.

The silicon powder is metallurgical level-one, silicone content >=98.5%；Granularity≤0.8 μm of the silicon powder；The aluminium oxide The granularity of powder is 15 μm；The heavy flame retardant coating 1 and lightweight thermal insulation layer 2 are combined together with up-down structure, and the heavy is resistance to The thickness proportion of fire bed 1 and lightweight thermal insulation layer 2 is 1:3.

Example IV

Fig. 2 is that composite fire brick structure B schematic diagram, Fig. 4 containing floating bead are that the composite refractory brick concave-convex containing floating bead combines Face schematic shapes.As shown in Figures 2 and 4, a kind of composite refractory brick containing floating bead, including heavy are provided in the present embodiment Flame retardant coating 1 and lightweight thermal insulation layer 2；The faying face 3 of the heavy flame retardant coating 1 and lightweight thermal insulation layer 2 is concave-convex faying face；It is described Heavy flame retardant coating 1 includes：Fused white corundum 28wt%, electrofused mullite 10wt%, andalusite 25wt%, silicon carbide 20wt%, Clay 7wt%, alumina powder 5wt%, calcium lignosulfonate 3wt%, yellow starch gum 1wt%, silicon powder 1wt%；The lightweight thermal insulation layer 2 includes： Fused white corundum 20wt%, electrofused mullite 20wt%, andalusite 5wt%, silicon carbide 10wt%, clay 12wt%, aluminium oxide Powder 8wt%, calcium lignosulfonate 3wt%, yellow starch gum 1wt%, silicon powder 1wt%；The lightweight thermal insulation layer 2 also includes the floating bead of 20wt%.

The silicon powder is metallurgical level-one, silicone content >=98.5%；Granularity≤0.8 μm of the silicon powder；The aluminium oxide The granularity of powder is 12 μm；The heavy flame retardant coating 1 and lightweight thermal insulation layer 2 are combined together with tiled configuration, and the heavy is resistance to The thickness proportion of fire bed 1 and lightweight thermal insulation layer 2 is 1:2.

Examples 1 to 4 and the comparison of common composite refractory brick break resistance index are as shown in table 1：

Table 1

Note:The refractory brick specification for comparing five seed types used is identical, is tested under identical condition.

By table 1 this it appears that the composite refractory brick Resisting fractre ability containing floating bead in embodiment is compound much higher than common Breaking strength is also much higher than common composite refractory brick under refractory brick, especially high temperature operating conditions, has it at work excellent Good Resisting fractre ability, can be effectively prevented the fracture at faying face.

Embodiment five

A kind of production technology of the composite refractory brick containing floating bead, including：Raw material processing-ingredient-kneading-molding-is dry Dry-firing-inspection-warehousing finished products.

In proportioning process, the ingredient of ingredient and lightweight thermal insulation layer including heavy flame retardant coating, heavy flame retardant coating and lightweight Insulating layer is individually separated carry out ingredient；The heavy flame retardant coating includes：Fused white corundum, electrofused mullite, andalusite, carbonization Silicon, clay, alumina powder, calcium lignosulfonate, yellow starch gum, silicon powder；The lightweight thermal insulation layer includes：It is fused white corundum, electrofused mullite, red Pillar, silicon carbide, clay, alumina powder, calcium lignosulfonate, yellow starch gum, silicon powder；The lightweight thermal insulation layer also includes floating bead；Specific proportion As shown in embodiment one.

In being kneaded technique, by the heavy flame retardant coating for completing proportioning process and the lightweight thermal insulation layer of proportioning process is completed respectively Separately it is stirred；

In moulding process, suppressed by the heavy flame retardant coating by being kneaded technique and by the lightweight thermal insulation layer of calendering process Integrally, contact surface is formed between heavy flame retardant coating and lightweight thermal insulation layer；

In drying process, the drying process is divided into two stages, and the first stage is demoulding drying, drying temperature 55 DEG C, drying time 18h；Second stage is force drying, and drying temperature is 90 DEG C, drying time 16h, adobe water after drying Divide mass content control below 6%；

In firing process, the composite refractory brick for completing drying process is packed into high temperature kiln, is heated to 1500 from room temperature DEG C, 8h is kept the temperature, firing process is completed.

The heavy flame retardant coating 1 and lightweight thermal insulation layer 2 are combined together with up-down structure；1 He of heavy flame retardant coating Once compacting is integral for lightweight thermal insulation layer 2, and pressing pressure 3.2t, compacting number is 6 times.

Embodiment six

A kind of production technology of the composite refractory brick containing floating bead, including：Raw material processing-ingredient-kneading-molding-is dry Dry-firing-inspection-warehousing finished products.

In proportioning process, the ingredient of ingredient and lightweight thermal insulation layer including heavy flame retardant coating, heavy flame retardant coating and lightweight Insulating layer is individually separated carry out ingredient；The heavy flame retardant coating includes：Fused white corundum, electrofused mullite, andalusite, carbonization Silicon, clay, alumina powder, calcium lignosulfonate, yellow starch gum, silicon powder；The lightweight thermal insulation layer includes：It is fused white corundum, electrofused mullite, red Pillar, silicon carbide, clay, alumina powder, calcium lignosulfonate, yellow starch gum, silicon powder；The lightweight thermal insulation layer also includes floating bead；Specific proportion As shown in embodiment two.

In being kneaded technique, by the heavy flame retardant coating for completing proportioning process and the lightweight thermal insulation layer of proportioning process is completed respectively Separately it is stirred；

In moulding process, suppressed by the heavy flame retardant coating by being kneaded technique and by the lightweight thermal insulation layer of calendering process Integrally, contact surface is formed between heavy flame retardant coating and lightweight thermal insulation layer；

In drying process, the drying process is divided into two stages, and the first stage is demoulding drying, drying temperature 55 DEG C, drying time 18h；Second stage is force drying, and drying temperature is 90 DEG C, drying time 16h, adobe water after drying Divide mass content control below 6%；

In firing process, the composite refractory brick for completing drying process is packed into high temperature kiln, is heated to 1500 from room temperature DEG C, 8h is kept the temperature, firing process is completed.

The heavy flame retardant coating 1 and lightweight thermal insulation layer 2 are combined together with tiled configuration；1 He of heavy flame retardant coating Once compacting is integral for lightweight thermal insulation layer 2, and pressing pressure 3.6t, compacting number is 4 times.

Embodiment seven

A kind of production technology of the composite refractory brick containing floating bead, including：Raw material processing-ingredient-kneading-molding-is dry Dry-firing-inspection-warehousing finished products.

In proportioning process, the ingredient of ingredient and lightweight thermal insulation layer including heavy flame retardant coating, heavy flame retardant coating and lightweight Insulating layer is individually separated carry out ingredient；The heavy flame retardant coating includes：Fused white corundum, electrofused mullite, andalusite, carbonization Silicon, clay, alumina powder, calcium lignosulfonate, yellow starch gum, silicon powder；The lightweight thermal insulation layer includes：It is fused white corundum, electrofused mullite, red Pillar, silicon carbide, clay, alumina powder, calcium lignosulfonate, yellow starch gum, silicon powder；The lightweight thermal insulation layer also includes floating bead；Specific proportion As shown in embodiment three.

In being kneaded technique, by the heavy flame retardant coating for completing proportioning process and the lightweight thermal insulation layer of proportioning process is completed respectively Separately it is stirred；

In moulding process, suppressed by the heavy flame retardant coating by being kneaded technique and by the lightweight thermal insulation layer of calendering process Integrally, contact surface is formed between heavy flame retardant coating and lightweight thermal insulation layer；

In drying process, the drying process is divided into two stages, and the first stage is demoulding drying, drying temperature 55 DEG C, drying time 18h；Second stage is force drying, and drying temperature is 90 DEG C, drying time 16h, adobe water after drying Divide mass content control below 6%；

In firing process, the composite refractory brick for completing drying process is packed into high temperature kiln, is heated to 1500 from room temperature DEG C, 8h is kept the temperature, firing process is completed.

The heavy flame retardant coating 1 and lightweight thermal insulation layer 2 are combined together with up-down structure；1 He of heavy flame retardant coating Once compacting is integral for lightweight thermal insulation layer 2, and pressing pressure 3.4t, compacting number is 5 times.

The composite refractory brick resistance to fracture of the composite refractory brick containing floating bead and common process manufacture that embodiment 5~7 manufactures Energy index comparison is as shown in table 2：

Table 2

Note:The refractory brick specification for comparing four seed types used is identical, is tested under identical condition.

By table 2 this it appears that the composite refractory brick Resisting fractre ability containing floating bead in embodiment is much higher than common process Breaking strength is also much higher than the composite fire of common process manufacture under the composite refractory brick of manufacture, especially high temperature operating conditions Brick makes it have excellent Resisting fractre ability at work, the fracture at faying face can be effectively prevented.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, In the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of by anyone skilled in the art, It should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be with the protection model of claims Subject to enclosing.

Claims (8)

1. a kind of composite refractory brick containing floating bead, including heavy flame retardant coating (1) and lightweight thermal insulation layer (2), it is characterised in that：It is described Heavy flame retardant coating (1) is by following weight percent at being grouped as：Fused white corundum 20wt%~50wt%, electrofused mullite 10wt%~30wt%, andalusite 10wt%~25wt%, silicon carbide 10wt%~20wt%, clay 6wt%~15wt%, oxygen Change aluminium powder 4wt%~10wt%, calcium lignosulfonate 3wt%~6wt%, yellow starch gum 1wt%~3wt%, silicon powder 1wt%~4wt%；It is described Lightweight thermal insulation layer (2) is by following weight percent at being grouped as：Fused white corundum 8wt%~30wt%, electrofused mullite 9wt%~25wt%, andalusite 4wt%~15wt%, silicon carbide 10wt%~20wt%, clay 6wt%~15wt%, oxidation Aluminium powder 4wt%~10wt%, calcium lignosulfonate 3wt%~6wt%, yellow starch gum 1wt%~3wt%, silicon powder 1wt%~4wt% and floating bead 15wt%~25wt%；The thickness proportion of the heavy flame retardant coating (1) and lightweight thermal insulation layer (2) is 1~2:3~4；The heavy The faying face (3) of flame retardant coating (1) and lightweight thermal insulation layer (2) is any one in plane faying face or concave-convex faying face.

2. a kind of composite refractory brick containing floating bead as described in claim 1, it is characterised in that：The silicon powder is metallurgical with one Grade, silicone content >=98.5%；Granularity≤0.8 μm of the silicon powder.

3. a kind of composite refractory brick containing floating bead as described in claim 1, it is characterised in that：The granularity of the alumina powder is 10~20 μm.

4. a kind of composite refractory brick containing floating bead as described in claim 1, it is characterised in that：The heavy flame retardant coating (1) and Lightweight thermal insulation layer (2) is combined together with up-down structure.

5. a kind of composite refractory brick containing floating bead as described in claim 1, it is characterised in that：The heavy flame retardant coating (1) and Lightweight thermal insulation layer (2) is combined together with tiled configuration.

6. a kind of production technology of composite refractory brick containing floating bead as described in Claims 1 to 5 any one claim, packet It includes：Raw material processing-ingredient-kneading-molding-drying-firing-inspection-warehousing finished products, it is characterised in that：

A. in proportioning process, the ingredient of ingredient and lightweight thermal insulation layer including heavy flame retardant coating, heavy flame retardant coating and light thermal-insulation Layer is individually separated carry out ingredient；The heavy flame retardant coating includes：Fused white corundum, electrofused mullite, andalusite, silicon carbide, pottery Soil, alumina powder, calcium lignosulfonate, yellow starch gum, silicon powder；The lightweight thermal insulation layer includes：Fused white corundum, electrofused mullite, andalusite, Silicon carbide, clay, alumina powder, calcium lignosulfonate, yellow starch gum, silicon powder；The lightweight thermal insulation layer also includes floating bead；

B. it is kneaded in technique, the heavy flame retardant coating for completing proportioning process and the lightweight thermal insulation layer for completing proportioning process is individually separated It is stirred；

C. in moulding process, one is pressed by the heavy flame retardant coating by being kneaded technique and by the lightweight thermal insulation layer of calendering process Body forms contact surface between heavy flame retardant coating and lightweight thermal insulation layer；

D. in drying process, the drying process is divided into two stages, and the first stage is demoulding drying, and drying temperature is 55 DEG C, Drying time is 18h；Second stage is force drying, and drying temperature is 90 DEG C, drying time 16h, raw brick moisture content after drying Mass content controls below 6%；

E. in firing process, the composite refractory brick for completing drying process is packed into high temperature kiln, 1500 DEG C is heated to from room temperature, protects Warm 8h completes firing process.

7. a kind of production technology of the composite refractory brick containing floating bead as claimed in claim 6, it is characterised in that：The heavy is resistance to Fire bed (1) and lightweight thermal insulation layer (2) are combined together with up-down structure.

8. a kind of production technology of the composite refractory brick containing floating bead as claimed in claim 6, it is characterised in that：The heavy is resistance to Fire bed (1) and lightweight thermal insulation layer (2) are combined together with tiled configuration.