CN109291549A

CN109291549A - A kind of foamed ceramic decorative integrated board of high-strength light high-ductility and preparation method thereof

Info

Publication number: CN109291549A
Application number: CN201811123978.1A
Authority: CN
Inventors: 黄聿新
Original assignee: Guangxi Xu Teng Industry Group Co Ltd
Current assignee: Guangxi Xu Teng Industry Group Co Ltd
Priority date: 2018-09-26
Filing date: 2018-09-26
Publication date: 2019-02-01
Anticipated expiration: 2038-09-26
Also published as: CN109291549B; WO2020063205A1

Abstract

The invention discloses a kind of foamed ceramic decorative integrated boards of high-strength light high-ductility, including foamed light material layer, high-ductility architectural surface and wear-resistant coating；Foamed light material layer includes: stone material tailing, graphene, zirconium oxide, high temperature fluxing agent, clay, stabilizer and degumming agent；High-ductility architectural surface includes: AC foaming agent, stabilizer, calcium carbonate, high-intensity resin, processing aid, lubricant.The wear-resistant coating includes: graphene, silicon carbide whisker, schmigel, vermiculite, kaolin, fire retardant, nano-titanium dioxide, sodium phosphate, sodium metasilicate, hydroxyethyl cellulose, silicone acrylic emulsion and silica solution.The foamed ceramic decorative integrated board, the high-ductility architectural surface that porcelain tendre makes is bonded together with foamed light material layer by pressing mold, then in high-ductility architectural surface surface wear-resistant coating, have the effect of good toughness, high-strength light, fire-retardant, heat preservation, water proof anti-seepage and anti-aging.

Description

A kind of foamed ceramic decorative integrated board of high-strength light high-ductility and preparation method thereof

Technical field

The present invention relates to decoration material field, in particular to the foamed ceramic decorative integrated board of a kind of high-strength light high-ductility and Preparation method.

Background technique

Existing Discussion on architecture surface of wall interior decorative coat is main currently on the market are as follows: ceramic tile, granite, marble, Polyethylene kind extrusion molding heat insulating decorative board and exterior coating, wherein ceramic tile, granite and marble are in process of production, a large amount of to fire Coal resource is burnt, environmental pollution destroys seriously, and ceramic tile dead weight is big, does not have self-insurance temperature function, during construction and installation Using a large amount of cement mortar wet processes paste, complex procedures service life is short, easy to crack easy to fall off, caused by security risk it is larger； Granite and marble itself belong to non-renewable mineral resources, in city increasingly development & construction demand, a large amount of recovery process In seriously destroy ecological environment, yield rate utilization rate is extremely low, causes tailing rubbish to be difficult to the processing that is utilized effectively, be easy to cause Geological disaster.Because material itself limits, service life easy to aging is short, weatherability is poor, fire line for polyethylene kind extrusion molding heat insulating decorative board Can be poor, and once a large amount of poison gas of generation fire generation, cause environmental pollution to destroy very big；In exterior coating, elasticity is applied Material, gloss paint, aqueous metallic paint and and flower king's coating be generally able to satisfy the requirement of water absorption and impermeability, some coating Will be with certain primary coats with the use of can be only achieved requirement, elastic coating is difficult to reach requirement for gas permeability.Therefore, it studies A kind of light, resistance to fire-retardant, water proof anti-seepage, non-aging and good mechanical performance the decoration applied to Discussion on architecture surface of wall Material is extremely urgent.

Porcelain tendre is a kind of novel energy-saving low-carbon ornament materials, is used as decorative material for wall surface, have it is light, flexible, The features such as appearance and modeling multiplicity, good weatherability；It is used as floor decorative material, has the characteristics that wear-resisting, anti-skidding, comfortable foot feeling； Simple and quick construction is shortened the construction period than traditional material, saving space, save the cost, and not easily to fall off.Suitable for exterior wall, interior The building decorations such as wall, ground change especially suitable for skyscraper exterior finish engineering, facade decorative engineering, Old City city Make the surface-veneer engineered of the anisotropic building such as exterior wall plane materiel, the finish coat of external insulation system and curved wall, arch column.

In addition, with the accelerating process of industrialization and urbanization, the consumed resource of China's industrial circle will further expand Greatly, it becomes increasingly conspicuous because of resource exploitation and using bring environmental problem, simultaneously because the utilization rate of resource is not high, produces a large amount of Stone material tailing.Stone material tailing is typically all that the method for using nature to stack is handled.Farmland is not only occupied, and to nature Ecological environment causes greatly to destroy.Rationally realize stone material tailing comprehensive utilization, can effective supplemental resources, improve Domestic Resources Guarantee dynamics.

Application No. is the patents of invention of CN201610265638.7 to disclose a kind of porcelain tendre polyurethane thermal insulation and decoration composite plate Preparation method by carrying out the preparation of flexible porcelain tendre directly on polyurethane thermal insulation board composite plate is once closed At.The wind composite plate has had both the effect of heat preservation and decoration, but intensity is not high, and adaptation range is relatively limited.Application No. is The patent of invention of CN201610959101.0 discloses a kind of heat preservation decoration integrative tapestry brick and preparation method thereof, by porcelain tendre Finish coat and heat preservation interlayer connect into an entirety, have decoration and heat insulation function.But the tapestry brick is bonded by grout material Porcelain tendre finish coat and insulating layer are easy to produce crack, and the tapestry brick still needs to improve in terms of intensity, toughness.

Summary of the invention

Goal of the invention of the invention first is that, in view of the above-mentioned problems, providing a kind of foamed ceramic dress of high-strength light high-ductility Integrated board is adornd, the high-ductility architectural surface that porcelain tendre makes is bonded together with foamed light material layer by pressing mold, then in height Tough architectural surface surface wear-resistant coating has good toughness, high-strength light, fire-retardant, heat preservation, water proof anti-seepage and anti-aging effect Fruit.

In order to achieve the above objectives, the technical scheme adopted by the invention is that:

A kind of foamed ceramic decorative integrated board of high-strength light high-ductility, including foamed light material layer, high-ductility architectural surface And wear-resistant coating；The high-ductility architectural surface is made by porcelain tendre, is bonded with the foamed light material layer by pressing mold Together, the wear-resistant coating is coated in high-ductility architectural surface surface.

The foamed light material layer by weight percentage, including following raw material: stone material tailing 65~85%, graphene 0.05~10%, zirconium oxide 0.05~10%, high temperature fluxing agent 0.05~10%, clay 0.05~8%, stabilizer 0.05~ 5% and degumming agent 0.05~5%.

The porcelain tendre by weight percentage, including following raw material: calcium carbonate 30~50%, graphene 0.05~ 10%, silicon carbide whisker 0.05~5%, clay 0.05~10%, AC foaming agent 0.05~5%, stabilizer 0.05~10%, plus Work auxiliary agent 0.05~5%, lubricant 0.05~10%, high-intensity resin 30~60%, mica 1~10%, schmigel 0.05~ 10% and colorant 0.05~5%.

The wear-resistant coating by weight percentage, including following raw material: graphene 1~10%, silicon carbide whisker 0.05 ~5%, schmigel 3~10%, vermiculite 5~20%, kaolin 5~20%, fire retardant 3~10%, nano-titanium dioxide 1~ 10%, sodium phosphate 5~15%, sodium metasilicate 10~20%, hydroxyethyl cellulose 0.05~5%, silicone acrylic emulsion 3~6% and silicon are molten Glue 5~10%.

Preferably, the high-intensity resin is one of polyvinyl resin, epoxy resin, Corvic or more Kind is formed by modification, specific method of modifying are as follows: chooses one kind or more of polyvinyl resin, epoxy resin, Corvic Kind be mixed to get hybrid resin, be then added into the hybrid resin account for carbon nanotubes that its mass percent is 5~15%, Silicon powder and zinc oxide, are then uniformly mixed, and extruding pelletization obtains high-intensity resin.

Preferably, the mass ratio of the carbon nanotubes, silicon powder and zinc oxide is 1~5:3~10:1~5.

Preferably, the stone material tailing is granite, feldspar, quartz, sandstone, basalt, diabase, shale, lime One of rock and griotte are a variety of.

Preferably, the stone material tailing first passes through pretreatment, the preprocessing process are as follows: stone material tailing is crushed, grinding, Then citrate is added and sodium sulfanilate carries out secondary grinding；The citrate and sodium sulfanilate of addition point Not Wei stone material tailing quality 0.5~1% and 0.1~1%

Preferably, the high temperature fluxing agent is one of calcination of talc, raw talcum, diopside and fluorite or a variety of.

Preferably, the stabilizer is that liquid barium zinc compound stabilizer, liquid calcium zinc complex stabilizer, lead salt are compound steady Determine one of agent, liquid barium cadmium and liquid barum cadmium zinc compound stabilizer or a variety of.

Preferably, the degumming agent is polybasic carboxylic acid water solubility organic-based material.

Another goal of the invention of the invention is to provide a kind of preparation of the foamed ceramic decorative integrated board of high-strength light high-ductility Method has high tenacity, lightweight, high-strength, sound-insulating and heat-insulating heat preservation, resistance using being made by prefabricated, the secondary molding bonded of substep Combustion, water proof anti-seepage, foamed ceramic decorative integrated board that is anti-aging, installing light high-strength light high tenacity.

A kind of preparation method of the foamed ceramic decorative integrated board of high-strength light high-ductility, comprising the following steps:

The preparation of S1, foamed light material: graphene and stone material tailing are weighed according to the formula, mixing crushes simultaneously powder Mill, is then added other raw materials, and mixing 0.5~4h of homogenizing is handled by mist projection granulating, dried, obtain foamed light powder.

The preparation of S2, high-ductility architectural surface: weighing calcium carbonate and graphene according to the formula, and mixing crushes simultaneously grinding, Then other raw materials in formula are added, 0.5~3h of homogenizing are mixed subsequently into high speed rotation mixing machine, at mist projection granulating Reason, drying is spare into savings storehouse, obtains high-ductility architectural surface raw material.

S3, it forms by a firing: the foamed light powder being burnt into 0.5~5h under 900~1300 DEG C of high temperature, is taken after cooling Out, excision forming obtains foamed light material layer.

S4, secondary molding bonded: by the high-ductility architectural surface raw material pressure be 2~6MPa, heating temperature be 180~ 250 DEG C, rate of extrusion be 45~100r/min under conditions of press mold, fretting map, extrusion, and immediately the foamed light layer whole Surface pressure is that bonding cooling is carried out under 0.5~1.0MPa state, forms high-ductility architectural surface；Through polishing, polishing, cutting forming, Obtain foamed ceramic decorative integrated board crude product.

S5, coating: weighing raw material according to the formula and prepare wear-resisting coating liquid, and is coated uniformly on the foamed ceramic dress The surface of the high-ductility architectural surface of integrated board crude product is adornd, wear-resistant coating is formed, obtains foamed ceramic decorative one board finished product.

Preferably, in step S5, sodium phosphate and sodium metasilicate are first poured into Hybrid Heating in container, temperature is controlled 50~70 ℃；And ceaselessly stir, and silica solution, it mixes them thoroughly, obtains binder；Then in proportion by graphene, silicon carbide whisker, Schmigel, vermiculite, kaolin, fire retardant, nano-titanium dioxide and hydroxyethyl cellulose mixing, are added silicone acrylic emulsion, and stirring is mixed 1~2h is closed, mixture is obtained；Finally binder and mixture are added in blender, 1~5h is mixed, is uniformly mixed it, Obtain wear-resisting coating liquid.

The invention has the following advantages:

1. the foamed ceramic decorative integrated board of high-strength light high-ductility of the invention, including foamed light material layer, high-ductility dress Finish coat and wear-resistant coating；The high-ductility architectural surface that porcelain tendre makes is bonded together with foamed light material layer by pressing mold, Then in high-ductility architectural surface surface wear-resistant coating, there is good toughness, high-strength light, fire-retardant, heat preservation, water proof anti-seepage and resist The effect of aging.

Foamed light material layer, high-ductility architectural surface and wear-resistant coating contain graphene, pass through graphene high-ratio surface The effect of long-pending, high adsorption capacity, makes graphene uniform be dispersed in other materials surface, and the physical property of material is made to tend towards stability, with Each raw material mutually assists playing anti-aging, anticorrosive, heat-insulation and heat-preservation, sound insulation, water proof anti-seepage, fireproof, light in formula The high-strength effect of matter.Zirconium oxide, clay, stabilizer and degumming agent, the toughening machine of zirconium oxide are added in foamed light material layer It is formed with stress-induced phase transformation toughening and microcrack evolution equation.By the two-dimensional slice structure of graphene, reinforce graphene and degumming agent Between interaction, adsorbed a large amount of zirconium oxide, clay and stabilizer, formed fine and close physical layer, improve the resistance of material Combustion property, waterproofness, heat insulating ability and mechanical property.

In high-ductility architectural surface in addition to graphene and calcium carbonate, mica, schmigel and silicon carbide whisker also added, lead to The two-dimensional slice structure of graphene is crossed, uniformly the interspersed mechanical property and waterproofness for improving decorative cover material in the structure.Carbonization Silicon wafer must have very high breaking strength and elasticity modulus, can flexibly bear biggish strain without permanent deformation, utilize carbon The stability that the mechanism of SiClx toughening has whiosker pullout, bridging and crack deflection to improve material.The two synergistic effect, improves Compression strength and flexibility.

High-intensity resin improves the intensity and toughness of resin by addition carbon nanotubes, silicon powder and modified zinc oxide, from And improve the mechanical property of high-ductility architectural surface.Carbon nanotubes, silicon powder, zinc oxide and resin respectively play independent effect, Interdependence again simultaneously, the mechanical property of resin is poor, and only they are combined, and forms an entirety, could effectively The effect of their own is played, mechanical strength of resin is improved.Carbon nanotubes, silicon powder and zinc oxide suitably increase as skeleton, content Add the intensity that resin can be improved, but as content increases, makes resin structure relaxation instead, cause strength reduction, therefore answer Strict control content.

Graphene and vermiculite is added in wear-resistant coating, is cooperated using vermiculite, graphene and nano-titanium dioxide, silicon carbide whisker Effect, can greatly improve wear-resisting coating liquid in the adhesive force of tough architectural surface.Meanwhile under the high temperature conditions, coating is not blistering, no Cracking, do not peel off, play waterproof, fire prevention, heat-insulation and heat-preservation, it is antiseptic and rustproof, anti-aging, insulation the effects of, extend foamed ceramic dress Adorn integrated board service life.

2. the foamed ceramic decorative integrated board of high-strength light high-ductility of the invention, stone material tailing activity is lower, with other materials The compatibility of material is poor, therefore first passes through pretreatment modification.Stone material tailing compatibility modified and activity improve, to change Adhesive property between kind material, assigns microcrystalline jade high-temperature stability and cracking resistance.

It is prefabricated by substep, two 3. the preparation method of the foamed ceramic decorative integrated board of high-strength light high-ductility of the invention Secondary molding bonded is made with high tenacity, high-strength light, good mechanical performance, sound-insulating and heat-insulating heat preservation, fire-retardant, water proof anti-seepage, resists Aging, anticorrosive, installation light, low-carbon energy-saving and environmentally protective high-strength light high-ductility foamed ceramic decorative integrated board.

Specific embodiment

Embodiment 1:

A kind of foamed ceramic decorative integrated board of high-strength light high-ductility

Including foamed light material layer, high-ductility architectural surface and wear-resistant coating；The high-ductility architectural surface is by porcelain tendre system It forms, is bonded together with the foamed light material layer by pressing mold, the wear-resistant coating is coated in high-ductility architectural surface Surface.

The foamed light material layer by weight percentage, including following raw material: stone material tailing 75%, graphene 5%, Zirconium oxide 5%, high temperature fluxing agent 5%, clay 5%, stabilizer 2% and degumming agent 3%.

The porcelain tendre by weight percentage, including following raw material: calcium carbonate 35%, graphene 5%, silicon carbide whisker 2%, clay 3%, AC foaming agent 2%, stabilizer 3%, processing aid 1%, lubricant 2%, high-intensity resin 40%, mica 3%, schmigel 2% and colorant 2%.

The wear-resistant coating by weight percentage, including following raw material: graphene 5%, silicon carbide whisker 2%, corundum Powder 5%, vermiculite 20%, kaolin 10%, fire retardant 5%, nano-titanium dioxide 8%, sodium phosphate 10%, sodium metasilicate 15%, hydroxyl Ethyl cellulose 5%, silicone acrylic emulsion 5% and silica solution 10%.

The high-intensity resin is that polyvinyl resin modification forms, specific method of modifying are as follows: add into polyvinyl resin Enter to account for carbon nanotubes, silicon powder and zinc oxide that its mass percent is 10%, is then uniformly mixed, extruding pelletization, obtains high-strength Spend resin.The mass ratio of the carbon nanotubes, silicon powder and zinc oxide is 2:5:2.The stone material tailing is granite.

The stone material tailing first passes through pretreatment, the preprocessing process are as follows: by stone material tailing crush, grinding, then plus Enter citrate and sodium sulfanilate carries out secondary grinding；The citrate and sodium sulfanilate of addition are respectively stone The 1% and 0.5% of material tailing quality.The high temperature fluxing agent is calcination of talc.The stabilizer is that liquid barium zinc is compound Stabilizer.The degumming agent is polybasic carboxylic acid water solubility organic-based material.

Preparation method, comprising the following steps:

The preparation of S1, foamed light material: graphene and stone material tailing are weighed according to the formula, mixing crushes simultaneously powder Mill, is then added other raw materials, and mixing homogenizing 2h is handled by mist projection granulating, dried, obtain foamed light powder.

The preparation of S2, high-ductility architectural surface: weighing calcium carbonate and graphene according to the formula, and mixing crushes simultaneously grinding, Then other raw materials in formula are added, mixes homogenizing 2h subsequently into high speed rotation mixing machine, handles, dry by mist projection granulating It is dry, it is spare into savings storehouse, obtain high-ductility architectural surface raw material.

S3, it forms by a firing: the foamed light powder being burnt into 2h under 1200 DEG C of high temperature, takes out, is cut into after cooling Type obtains foamed light material layer.

S4, secondary molding bonded: by the high-ductility architectural surface raw material pressure is 5MPa, heating temperature is 200 DEG C, is squeezed Rate is press mold, fretting map, extrusion under conditions of 60r/min out, and the foamed light layer in whole face pressure is immediately Bonding cooling is carried out under 1.0MPa state, forms high-ductility architectural surface；Through polishing, polishing, cutting forming, foamed ceramic dress is obtained Adorn integrated board crude product.

Wear-resisting coating liquid the preparation method comprises the following steps: sodium phosphate and sodium metasilicate are first poured into Hybrid Heating in container, temperature control At 60 DEG C；And ceaselessly stir, and silica solution, it mixes them thoroughly, obtains binder；Then in proportion by graphene, silicon carbide Whisker, schmigel, vermiculite, kaolin, fire retardant, nano-titanium dioxide and hydroxyethyl cellulose mixing, are added silicone acrylic emulsion, stir Mixing 1.5h is mixed, mixture is obtained；Finally binder and mixture are added in blender, 3h is mixed, is uniformly mixed it, Obtain wear-resisting coating liquid.

Embodiment 2:

The foamed light material layer by weight percentage, including following raw material: stone material tailing 85%, graphene 5%, Zirconium oxide 3%, high temperature fluxing agent 2%, clay 3%, stabilizer 1% and degumming agent 1%.

The porcelain tendre by weight percentage, including following raw material: calcium carbonate 40%, graphene 5%, silicon carbide whisker 2%, clay 3%, AC foaming agent 2%, stabilizer 3%, processing aid 2%, lubricant 5%, high-intensity resin 30%, mica 5%, schmigel 2% and colorant 1%.

The wear-resistant coating by weight percentage, including following raw material: graphene 5%, silicon carbide whisker 3%, corundum Powder 8%, vermiculite 15%, kaolin 15%, fire retardant 5%, nano-titanium dioxide 10%, sodium phosphate 15%, sodium metasilicate 15%, hydroxyl Ethyl cellulose 4%, silicone acrylic emulsion 4% and silica solution 6%.

The high-intensity resin is that polyvinyl resin modification forms, specific method of modifying are as follows: add into polyvinyl resin Enter to account for carbon nanotubes, silicon powder and zinc oxide that its mass percent is 5%, is then uniformly mixed, extruding pelletization, obtains high-intensitive Resin.The mass ratio of the carbon nanotubes, silicon powder and zinc oxide is 3:6:2.

The stone material tailing is feldspar, quartz and shale.The stone material tailing first passes through pretreatment, described pretreated Journey are as follows: stone material tailing is crushed, grinding, citrate is then added and sodium sulfanilate carries out secondary grinding；It is added Citrate and sodium sulfanilate are respectively the 0.6% and 0.2% of stone material tailing quality.

The high temperature fluxing agent is in diopside and fluorite.The stabilizer is liquid calcium zinc complex stabilizer and liquid Body barium cadmium zinc composite stabilizer.

Preparation method, comprising the following steps:

The preparation of S1, foamed light material: graphene and stone material tailing are weighed according to the formula, mixing crushes simultaneously powder Mill, is then added other raw materials, and mixing homogenizing 3h is handled by mist projection granulating, dried, obtain foamed light powder.

The preparation of S2, high-ductility architectural surface: weighing calcium carbonate and graphene according to the formula, and mixing crushes simultaneously grinding, Then other raw materials in formula are added, mixes homogenizing 3h subsequently into high speed rotation mixing machine, handles, dry by mist projection granulating It is dry, it is spare into savings storehouse, obtain high-ductility architectural surface raw material.

S3, it forms by a firing: the foamed light powder being burnt into 0.5h under 1300 DEG C of high temperature, takes out, cuts after cooling Molding, obtains foamed light material layer.

S4, secondary molding bonded: by the high-ductility architectural surface raw material pressure is 6MPa, heating temperature is 250 DEG C, is squeezed Rate is press mold, fretting map, extrusion under conditions of 100r/min out, and the foamed light layer in whole face pressure is immediately Bonding cooling is carried out under 0.5MPa state, forms high-ductility architectural surface；Through polishing, polishing, cutting forming, foamed ceramic dress is obtained Adorn integrated board crude product.

Wear-resisting coating liquid the preparation method comprises the following steps: sodium phosphate and sodium metasilicate are first poured into Hybrid Heating in container, temperature control At 70 DEG C；And ceaselessly stir, and silica solution, it mixes them thoroughly, obtains binder；Then in proportion by graphene, silicon carbide Whisker, schmigel, vermiculite, kaolin, fire retardant, nano-titanium dioxide and hydroxyethyl cellulose mixing, are added silicone acrylic emulsion, stir Mixing 1h is mixed, mixture is obtained；Finally binder and mixture are added in blender, 4h is mixed, is uniformly mixed it, i.e., Obtain wear-resisting coating liquid.

Embodiment 3:

The foamed light material layer by weight percentage, including following raw material: stone material tailing 65%, graphene 10%, zirconium oxide 10%, high temperature fluxing agent 4%, clay 8%, stabilizer 2% and degumming agent 1%.

The porcelain tendre by weight percentage, including following raw material: calcium carbonate 50%, graphene 2%, silicon carbide whisker 1%, clay 1%, AC foaming agent 1.5%, stabilizer 1%, processing aid 0.5%, lubricant 0.5%, high-intensity resin 40%, Mica 1%, schmigel 1% and colorant 0.5%.

The wear-resistant coating by weight percentage, including following raw material: graphene 1%, silicon carbide whisker 5%, corundum Powder 4%, vermiculite 5%, kaolin 20%, fire retardant 10%, nano-titanium dioxide 5%, sodium phosphate 15%, sodium metasilicate 20%, hydroxyl Ethyl cellulose 5%, silicone acrylic emulsion 3% and silica solution 7%.

The high-intensity resin is that polyvinyl resin modification forms, specific method of modifying are as follows: add into polyvinyl resin Enter to account for carbon nanotubes, silicon powder and zinc oxide that its mass percent is 8%, is then uniformly mixed, extruding pelletization, obtains high-intensitive Resin.The mass ratio of the carbon nanotubes, silicon powder and zinc oxide is 4:8:3.

The stone material tailing is granite and griotte.The stone material tailing first passes through pretreatment, described pretreated Journey are as follows: stone material tailing is crushed, grinding, citrate is then added and sodium sulfanilate carries out secondary grinding；It is added Citrate and sodium sulfanilate are respectively the 0.5% and 0.5% of stone material tailing quality

The high temperature fluxing agent is in calcination of talc, diopside and fluorite.The stabilizer is lead salt stable composition Agent and liquid barium cadmium.

The preparation method is the same as that of Example 1.

Embodiment 4

Compared with Example 1, the stone material tailing in the foamed light material layer is without pretreatment.

Embodiment 5

Compared with Example 1, the high-intensity resin in the foamed light material layer is without modification.

Embodiment 6

Compared with Example 1, the high-intensity resin in the foamed light material layer accounts for its mass percent by being added It is modified for 12% carbon nanotubes, silicon powder and zinc oxide.

Embodiment 7

Compared with Example 1, the high-intensity resin in the foamed light material layer accounts for its mass percent by being added It is modified for 15% carbon nanotubes, silicon powder and zinc oxide.

Comparative example 1

Compared with Example 1, the high-intensity resin in the foamed light material layer accounts for its mass percent by being added It is modified for 18% carbon nanotubes, silicon powder and zinc oxide.

Comparative example 2:

Compared with Example 1, it is not coated by wear-resistant coating.

Comparative example 3:

Compared with Example 1, graphene is not contained in the foamed light material layer, porcelain tendre and wear-resistant coating.

Comparative example 4:

Compared with Example 1, silicon carbide whisker is not contained in the porcelain tendre and wear-resistant coating.

Performance test: foamed light decorative integrated plate sample is respectively prepared by the preparation method of embodiment 1-7 and comparative example 1-4 30mm × 20mm × 20mm style is made in product, detects the compression strength of style, flexural strength, combustion rating, oise insulation factor and leads Hot coefficient, specific steps the results are shown in Table 1 referring to GB/T 17657-2013.

1 embodiment 1-5 of table and comparative example 1-3 the performance test results

Embodiment 1-5 and table 1 can be seen that the foamed ceramic decorative integrated board of high-strength light high-ductility of the invention, have Higher compression strength, flexural strength and combustion rating, lower thermal coefficient and wearability test revolution illustrate that the present invention will The high-ductility architectural surface of porcelain tendre production is bonded together with foamed light material layer by pressing mold, then in high-ductility architectural surface table Face wear-resistant coating has the effect of good toughness, high-strength light, fire-retardant, heat preservation, water proof anti-seepage and anti-aging.

Embodiment 4-5, which can be seen that, can preferably improve decoration by pretreated stone material tailing and high-intensity resin The intensity, toughness and wearability of integrated board.

As can be seen that carbon nanotubes, silicon powder and zinc oxide are as skeleton, content is suitable for embodiment 1,6-7 and comparative example 1 The intensity of resin can be improved when increasing, but as content increases, make resin structure relaxation instead, cause strength reduction, because This answers strict control content, and 15% is optimum addition.

Embodiment 1 and comparative example 2-4 can be seen that wear-resistant coating and can reduce thermal coefficient, so as to improve heat insulation effect. Graphene and silicon carbide whisker can preferably improve the intensity, toughness and wearability of decorative integrated plate.

Radionuclide limitation test: with the External Exposure Index and Outreach services of gamma ray spectrometer systematic survey test sample, Testing result is shown in Table 2.

2 radionuclide of table limitation test data

	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Embodiment 5
						External Exposure Index	0.01	0.01	0.01	0.01	0.01
Outreach services	0.02	0.02	0.02	0.02	0.02

Known to table 2: External Exposure Index and Outreach services are lower, illustrate that the amount of radiation of sample is small, the spoke generated to human body The effect of penetrating is also smaller.The External Exposure Index and Outreach services of embodiment 1-5 is relatively low, illustrates lightweight prepared by the present invention The amount of radiation of the foamed ceramic decorative integrated board of high-strength and high ductility is relatively low, meets the market demand, and use is safer.

Above description is the detailed description for the present invention preferably possible embodiments, but embodiment is not limited to this hair Bright patent claim, it is all the present invention suggested by technical spirit under completed same changes or modifications change, should all belong to In the covered the scope of the patents of the present invention.

Claims

1. a kind of foamed ceramic decorative integrated board of high-strength light high-ductility, it is characterised in that: including foamed light material layer, high-ductility Architectural surface and wear-resistant coating；The high-ductility architectural surface is made by porcelain tendre, is passed through with the foamed light material layer Pressing mold is bonded together, and the wear-resistant coating is coated in high-ductility architectural surface surface；

The foamed light material layer by weight percentage, including following raw material: stone material tailing 65~85%, graphene 0.05 ~10%, zirconium oxide 0.05~10%, high temperature fluxing agent 0.05~10%, clay 0.05~8%, 0.05~5% and of stabilizer Degumming agent 0.05~5%；

The porcelain tendre by weight percentage, including following raw material: calcium carbonate 30~50%, graphene 0.05~10%, carbon SiClx whisker 0.05~5%, clay 0.05~10%, AC foaming agent 0.05~5%, stabilizer 0.05~10%, processing aid 0.05~5%, lubricant 0.05~10%, high-intensity resin 30~60%, mica 1~10%, 0.05~10% and of schmigel Colorant 0.05~5%.

The wear-resistant coating by weight percentage, including following raw material: graphene 1~10%, silicon carbide whisker 0.05~ 5%, schmigel 3~10%, vermiculite 5~20%, kaolin 5~20%, fire retardant 3~10%, nano-titanium dioxide 1~ 10%, sodium phosphate 5~15%, sodium metasilicate 10~20%, hydroxyethyl cellulose 0.05~5%, silicone acrylic emulsion 3~6% and silicon are molten Glue 5~10%.

2. the foamed ceramic decorative integrated board of high-strength light high-ductility according to claim 1, it is characterised in that: the height Intensity resin be one of polyvinyl resin, epoxy resin, Corvic or it is a variety of formed by modification, it is specific modified Method are as follows: selection polyvinyl resin, epoxy resin, the one or more of Corvic are mixed to get hybrid resin, then It is added into the hybrid resin and accounts for carbon nanotubes, silicon powder and zinc oxide that its mass percent is 5~15%, then mixed Uniformly, extruding pelletization obtains high-intensity resin.

3. the foamed ceramic decorative integrated board of high-strength light high-ductility according to claim 2, it is characterised in that: the nanometer The mass ratio of carbon pipe, silicon powder and zinc oxide is 1~5:3~10:1~5.

4. the foamed ceramic decorative integrated board of high-strength light high-ductility according to claim 1, it is characterised in that: the stone Material tailing is one of granite, feldspar, quartz, sandstone, basalt, diabase, shale, limestone and griotte or more Kind.

5. the foamed ceramic decorative integrated board of high-strength light high-ductility according to claim 1, it is characterised in that: the stone material Tailing first passes through pretreatment, the preprocessing process are as follows: crushes stone material tailing, grinding, citrate is then added and to ammonia Base benzene sulfonic acid sodium salt carries out secondary grinding；The citrate and sodium sulfanilate of addition are respectively the 0.5 of stone material tailing quality ~1 % and 0.1~1%.

6. the foamed ceramic decorative integrated board of high-strength light high-ductility according to claim 1, it is characterised in that: the height Warm fluxing agent is one of calcination of talc, raw talcum, diopside and fluorite or a variety of.

7. the foamed ceramic decorative integrated board of high-strength light high-ductility according to claim 1, it is characterised in that: described is steady Determining agent is liquid barium zinc compound stabilizer, liquid calcium zinc complex stabilizer, lead salt compound stabilizer, liquid barium cadmium and liquid barium cadmium One of zinc composite stabilizer is a variety of.

8. the foamed ceramic decorative integrated board of high-strength light high-ductility according to claim 1, it is characterised in that: the solution Jelly is polybasic carboxylic acid water solubility organic-based material.

9. a kind of preparation of the foamed ceramic decorative integrated board of high-strength light high-ductility according to any one of claims 1 to 8 Method, it is characterised in that: the following steps are included:

The preparation of S1, foamed light material: graphene and stone material tailing are weighed according to the formula, mixing crushes simultaneously grinding, so After be added other raw materials, mixing 0.5~4h of homogenizing is handled by mist projection granulating, is dried, obtain foamed light powder；

The preparation of S2, high-ductility architectural surface: calcium carbonate and graphene are weighed according to the formula, mixing crushes simultaneously grinding, then Other raw materials in formula are added, mixes 0.5~3h of homogenizing subsequently into high speed rotation mixing machine, is handled by mist projection granulating, Drying, it is spare into savings storehouse, obtain high-ductility architectural surface raw material；

S3, it forms by a firing: the foamed light powder being burnt into 0.5~5h under 900~1300 DEG C of high temperature, is taken out after cooling, Excision forming obtains foamed light material layer；

S4, secondary molding bonded: the high-ductility architectural surface raw material is passed through into press mold, fretting map, extrusion, and the foaming immediately Light layer carries out bonding cooling in the case where whole face pressure is 0.5~1.0MPa state, forms high-ductility architectural surface；Through polishing, polishing, Cutting forming, obtains foamed ceramic decorative integrated board crude product；

S5, coating: raw material is weighed according to the formula and prepares wear-resisting coating liquid, and is coated uniformly on the foamed ceramic decorative one The surface of the high-ductility architectural surface of body plate crude product forms wear-resistant coating, obtains foamed ceramic decorative one board finished product.

10. the preparation method of the foamed ceramic decorative integrated board of high-strength light high-ductility according to claim 9, feature It is: in step S5, sodium phosphate and sodium metasilicate is first poured into Hybrid Heating in container, temperature is controlled at 50~70 DEG C；Do not stop Stirring, and silica solution mixes them thoroughly, obtains binder；Then in proportion by graphene, silicon carbide whisker, schmigel, leech Stone, kaolin, fire retardant, nano-titanium dioxide and hydroxyethyl cellulose mixing, are added silicone acrylic emulsion, are stirred 1~2h, obtain Mixture；Finally binder and mixture are added in blender, 1~5h is mixed, is uniformly mixed it wear-resisting to get arriving Coating liquid.