CN105271999A - Simulation stone for thermal insulation of buildings and production method of simulation stone - Google Patents

Abstract

The invention discloses simulation stone for thermal insulation of buildings and a production method of the simulation stone. The simulation stone for thermal insulation of the buildings comprises a thermal-insulation material layer and a simulation stone layer covering the surface of the thermal-insulation material layer, and a reinforcement net is arranged in the simulation stone layer; the simulation stone layer comprises substances in parts by weight as follows: 40 parts of cement, 50-70 parts of natural waste ore rubbles, 0.5-1 part of an alkali-resistant fiber, 0.5-1 part of a water repellent, 1.5-2.5 parts of silica powder, 0.3-1 part of a quick hardening agent and 0.1-0.3 parts of glue. The simulation stone has the advantages of simple structure and production technology, high strength, cold resistance and thermal-insulation function, so that the simulation stone is possibly applied to extremely cold areas.

Description

A kind of building heat preservation artificial stone and preparation method thereof

Technical field

The invention belongs to building material technical field, particularly relate to a kind of building heat preservation artificial stone and preparation method thereof.

Background technology

Stone decoration is as a kind of traditional material of decorating building, and from Human Architecture, the initial stage adopts so far always, and the present situation of its industry is dug stone, transporting and hoisting, the processing of large-scale facility always, used the cladding decoration of steel to cut into a mountain.Have at present some to replace the product of stone materials as organic materialss such as GRC component, artificial stone-like materials both at home and abroad, its cost of manufacture is higher, also will adopt cladding and the technique such as to paste with the connection of buildings.Develop a good construction exterior exterior material and must possess the advanced technologies be connected with buildings direct organization, good imitative stone effect to be had in addition and have and work-ing life like Building class, and the cost that can reduce building external decoration drops into, and just has permanent vitality and development prospect.

According to artificial ornamental stone manufacture method and the difference of producing material therefor, four classes can be divided into: polyester type, cement mo(u)ld, compound and sintered type.Abroad, artificial ornamental stone has more than 50 year history, the R&D and production of China's ornamental stone is at the early-stage, and China's artificial marble industrial development in this year is very fast, and national You Jibaijia R&D institution and factory and enterprise are in research and produce various types of artificial marble.The external artificial stone-like material produced in recent years generally adopts vacuum oscillation moulding process ensure that, and product has more stable technical feature.

More external architects have abandoned the full glass outer wall decoration of geometric scheme in the design of large-scale mall and office building, the development of this trend is the appearance due to slim stone face brick on the one hand, is owing to there being better method to solve the fixation problem of stone face brick on curtain wall on the other hand

Russia SEVAST'JANOVA.N invents a kind of method preparing color concrete wall facing material.Taiwan Fang, Kecheng invention is a kind of prepares artificial stone plate's method with natural crystal grain and ideal color.Adopt vibro-moulding process in the method for the granolithic toppings product of people's inventions such as Sheahan, JohnJ, sandblasting is carried out in base substrate solidification rear surface.

The Chinese invention patent application prospectus of publication number CN1423023 discloses the making method of a kind of covering layer of artificial stone for building of insulting the duckweed invention of little gentle Wu state, the method comprises making mould, prepares Constructional Steel Bar, prepares imitation stone material, waters the concrete demoulding and surface engraving, buildings makes mould according to required decorative model and fixes, buildings is provided as the Constructional Steel Bar decorating tectal structural framework, stone nitre is mixed with concrete, concrete is poured into mould, the demoulding when concrete reaches the intensity of regulation, then carves by natural stone texture requirement.But, the making method of this covering layer of artificial stone for building exist complex manufacturing technology, making artificial stone complex structure, lack heat insulation function and not there is the shortcoming of cold tolerance, cannot use in cryogenic region, pole high latitude areas such as () such as China northeast, Russia, Northern Europe at all.

Summary of the invention

Technical problem to be solved by this invention be to provide a kind ofly have that structure is simple, intensity is high, cold-resistant and there is the building heat preservation artificial stone of heat insulation function, to overcome the deficiency that prior art exists.

For solving the problems of the technologies described above, the present invention adopts following technical scheme:

A kind of building heat preservation artificial stone, is characterized in that, be made up of artificial stone sheet material layers and adiabator layer, be provided with enhancing net in described artificial stone sheet material layers; Described artificial stone sheet material layers is made up of the material of following components by weight percent: cement 40 parts; Natural abandoned mine rubble 50-70 part, alkali proof fiber 0.5-1 part, hydrophober 0.5-1 part; Silica flour 1.5-2.5 part; Fast hard agent 0.3-1 part; Glue 0.1-0.3 part.

Described artificial stone sheet material layers is divided into the first artificial stone sheet material layers, the second artificial stone sheet material layers and the 3rd artificial stone sheet material layers; Described enhancing net is divided into the first enhancing net and second to strengthen net; Described building heat preservation artificial stone is followed successively by from top to bottom: adiabator layer, the first artificial stone sheet material layers, first strengthen net, the second artificial stone sheet material layers, the second artificial stone sheet material layers, the second reinforcing mat, the 3rd artificial stone sheet material layers.

Described natural abandoned mine rubble is calcite mine tailing rubble or marble rubble or grouan mine tailing rubble or gold mine abandoned mine rubble or combination wherein.Marble rubble can be used as indoor facing, and calcite mine tailing rubble, grouan mine tailing rubble, person's gold mine abandoned mine rubble are used as outdoor facing.

In a preferred embodiment of the invention, described natural abandoned mine rubble 60 parts, alkali proof fiber 0.8 part, hydrophober 0.8 part; Silica flour 2 parts; Fast hard agent 0.6 part; 0.2 part, glue.

The steel wire diameter of described steel mesh is the mesh width 8-15mm of 0.8-1.2mm, described steel mesh.

In a preferred embodiment, described first enhancing net and second strengthens net and is steel mesh, and the steel wire diameter of described steel mesh is 1mm, and the mesh width of described steel mesh is 10mm.

In addition, present invention also offers the making method of building heat preservation artificial stone, comprise successively and make slurry stage, laying slurry stage and curing schedule;

Described making slurry stage is added water by the material of following components by weight percent to stir to form slurry: cement 40 parts; Natural abandoned mine rubble 50-70 part, alkali proof fiber 0.5-1 part, hydrophober 0.5-1 part; Silica flour 1.5-2.5 part; Fast hard agent 0.3-1 part; Glue 0.1-0.3 part;

The process of described laying slurry stage is:

A, tiling lagging material;

B, tile the first layer slurry on lagging material;

C, on the first layer slurry tile first strengthen net;

D, strengthen online tiling second layer slurry first;

E, on second layer slurry tile second strengthen net;

F, strengthen online tiling third layer slurry second;

Described curing schedule is curing under ambient temperature and moisture condition after laying slurry stage.

Also comprise surface treatment step after described curing schedule, described surface treatment is for polishing smooth or be processed into rain stone effect or being processed into sandrock effect imitating.

In a preferred embodiment of the invention, the thickness of described the first layer slurry and described second layer slurry is 6-10mm, the thickness of described third layer slurry is 8-15mm, described first enhancing net and described second strengthens net and is steel mesh, the steel wire diameter of described steel mesh is 1mm, and the mesh width of described steel mesh is 10mm.

Adopt technique scheme, artificial stone of the present invention has structure and manufacture craft is simple, intensity is high, cold-resistant and there is the advantage of heat insulation function, application becomes possibility in cryogenic region, pole to make artificial stone.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the present invention is described in detail:

Fig. 1 is the structural representation of building heat preservation artificial stone of the present invention.

Embodiment

As shown in Figure 1, building heat preservation artificial stone of the present invention, is made up of adiabator layer 100, artificial stone sheet material layers and enhancing net.

Wherein, existing insulation material all may be used for making adiabator layer 100, such as extruded polystyrene porous plastics (extruded sheet), mold pressing type polystyrene foam is moulded (regular foam plate), sprayed rigid foam polyurethane, hard-foam polyurethane warming plate (goods), multicellular glass, foamed concrete (foam mortar), chemical foaming cement plate, light skeletal thermal insulation concrete (haydite concrete etc.), inorganic heat insulation mortar (kervit microbead insulated sand slurry), polyphenyl particle heat-insulating mortar, mineral wool (rock wool), resol plate, swelling perlite heat-insulating mortar inorganic active heat.The thickness of adiabator layer 100 is generally 60-150mm.

Artificial stone sheet material layers is divided into the first artificial stone sheet material layers 201, second artificial stone sheet material layers 202 and the 3rd artificial stone sheet material layers 203.Strengthening net can down to textile materials net, plastic wire or wire netting, preferred steel mesh.Strengthening net is divided into the first enhancing net 301 and second to strengthen net 302.In the present invention, the first enhancing net 301 and the second enhancing net 302 all select steel mesh.Strengthen net and be arranged in artificial stone sheet material layers, strengthen net by increasing in artificial stone sheet material layers, the intensity of stone material and resistance power are significantly increased.

Again as shown in Figure 1, building heat preservation artificial stone of the present invention, is followed successively by adiabator layer 100, first artificial stone sheet material layers 201, first from top to bottom and strengthens net 301, second artificial stone sheet material layers 202, second enhancing net 302 and the 3rd artificial stone sheet material layers 203.

Wherein, artificial stone sheet material layers is made up of the material of following components by weight percent: cement 40 parts; Natural abandoned mine rubble 50-70 part, alkali proof fiber 0.5-1 part, hydrophober 0.5-1 part; Silica flour 1.5-2.5 part; Fast hard agent 0.3-1 part; Glue 0.1-0.3 part.The steel wire diameter of steel mesh is the mesh width 8-15mm of 0.8-1.2mm, steel mesh.Glue adopts 801 glue for building usually, can certainly adopt the glue of other trade mark.

In the present invention, major ingredient adopts natural abandoned mine rubble, and the artificial stone made can be made on the one hand to have natural grain effect, more the nearer natural effects of artificial stone, and the extensive application of natural abandoned mine rubble is also beneficial to the intensity improving artificial stone; On the other hand, a large amount of utilizations of natural abandoned mine rubble obtain the appropriate disposal of turning waste into wealth, and meet the energy-conserving and environment-protective policy of country.Make artificial stone have alkaline-resisting and water resistance by interpolation alkali proof fiber and hydrophober, add silica flour and make the color of cement more carry out natural effects, interpolation glue adds the cohesive force between various material.Artificial stone of the present invention is made to be provided with heat insulation function by increasing adiabator layer in artificial stone sheet material layers.

According to the requirement of owner to facing, natural abandoned mine rubble can adopt the arbitrary combination of calcite mine tailing rubble or marble rubble or grouan mine tailing rubble or gold mine abandoned mine rubble or these materials.Usually, marble rubble can be used as indoor facing, and calcite mine tailing rubble, grouan mine tailing rubble, person's gold mine abandoned mine rubble are used as outdoor facing.

The making method of building heat preservation artificial stone of the present invention, comprises successively and makes slurry stage, laying slurry stage, curing schedule.

Wherein, making slurry stage is added water by the material of following components by weight percent to stir to form slurry: cement 40 parts; Natural abandoned mine rubble 50-70 part, alkali proof fiber 0.5-1 part, hydrophober 0.5-1 part; Silica flour 1.5-2.5 part; Fast hard agent 0.3-1 part; Glue 0.1-0.3 part.During stirring, the amount added water is determined, as long as adjust to the rare thick degree of usual concrete slurry, do not have particular requirement according to the water absorbing properties of natural abandoned mine rubble kind.

The process of laying slurry stage is:

A, tiling lagging material;

B, tile the first layer slurry on lagging material;

C, on the first layer slurry tile first strengthen net;

D, strengthen online tiling second layer slurry first;

E, on second layer slurry tile second strengthen net;

F, strengthen online tiling third layer slurry second;

Curing schedule is curing under ambient temperature and moisture condition after laying slurry stage.

According to the requirement of owner to facing table, also comprise surface treatment step after the consolidation step, surface treatment is for polishing smooth or be processed into rain stone effect or being processed into sandrock effect imitating.

The thickness of the first layer slurry and second layer slurry is 6-10mm, and the thickness of third layer slurry is 8-15mm.

Embodiment 1

In the building heat preservation artificial stone of the present embodiment, cement 40kg; Natural abandoned mine rubble 50kg, alkali proof fiber 0.5kg, hydrophober 0.5kg; Silica flour 1.5-2.5kg; Fast hard agent 0.3kg; Glue 0.1-0.3kg.The steel wire diameter of steel mesh is 0.8mm, the squared mesh width 8mm of steel mesh.

In the making method of the building heat preservation artificial stone of the present embodiment, the thickness of the first layer slurry and second layer slurry is 6mm, and the thickness of third layer slurry is 8mm.

Resistance toly freeze experiment: the building heat preservation artificial stone made by cutting one fritter (10cm × 10cm) is placed in the refrigerator of-40 degrees Celsius in 12 hours, within 12 hours, be placed into outside refrigerator again, continuous circulation like this carries out the freezing experiment of 30 days, finds no be full of cracks, surperficial obscission.

Embodiment 2

In the building heat preservation artificial stone of the present embodiment, cement 40kg; Natural abandoned mine rubble 60kg, alkali proof fiber 0.8kg, hydrophober 0.8kg; Silica flour 2kg; Fast hard agent 0.6kg; Glue 0.2kg.The steel wire diameter of steel mesh is 1mm, the squared mesh width 10mm of steel mesh.

In the making method of the building heat preservation artificial stone of the present embodiment, the thickness of the first layer slurry and second layer slurry is 8mm, and the thickness of third layer slurry is 10mm.

Resistance toly freeze experiment: resistance toly freeze experiment: the building heat preservation artificial stone made by cutting one fritter (10cm × 10cm) is placed in the refrigerator of-40 degrees Celsius in 12 hours, within 12 hours, be placed into outside refrigerator again, continuous circulation like this carries out the freezing experiment of 30 days, finds no be full of cracks, surperficial obscission.

Embodiment 3

In the building heat preservation artificial stone of the present embodiment, cement 40kg; Natural abandoned mine rubble 70kg, alkali proof fiber 1kg, hydrophober 1kg; Silica flour 2.5kg; Fast hard agent 16kg; Glue 0.3kg.The steel wire diameter of steel mesh is 1.2mm, the squared mesh width 15mm of steel mesh.

In the making method of the building heat preservation artificial stone of the present embodiment, the thickness of the first layer slurry and second layer slurry is 10mm, and the thickness of third layer slurry is 15mm.

Resistance toly freeze experiment: the building heat preservation artificial stone made by cutting one fritter (10cm × 10cm) is placed in the refrigerator of-40 degrees Celsius in 12 hours, within 12 hours, be placed into outside refrigerator again, continuous circulation like this carries out the freezing experiment of 30 days, finds no be full of cracks, surperficial obscission.

Can be found out by foregoing detailed description, artificial stone of the present invention has structure and manufacture craft is simple, intensity is high, cold-resistant and there is the advantage of heat insulation function, application becomes possibility in cryogenic region, pole to make artificial stone.

Claims (10)

1. a building heat preservation artificial stone, is characterized in that, is made up of, is provided with enhancing net in described artificial stone sheet material layers adiabator layer and the artificial stone sheet material layers being overlying on adiabator layer surface; Described artificial stone sheet material layers is made up of the material of following components by weight percent: cement 40 parts; Natural abandoned mine rubble 50-70 part, alkali proof fiber 0.5-1 part, hydrophober 0.5-1 part; Silica flour 1.5-2.5 part; Fast hard agent 0.3-1 part; Glue 0.1-0.3 part.

2. building heat preservation artificial stone according to claim 1, is characterized in that: described artificial stone sheet material layers is divided into the first artificial stone sheet material layers, the second artificial stone sheet material layers and the 3rd artificial stone sheet material layers; Described enhancing net is divided into the first enhancing net and second to strengthen net; Described building heat preservation artificial stone is followed successively by from top to bottom: adiabator layer, the first artificial stone sheet material layers, first strengthen net, the second artificial stone sheet material layers, the second artificial stone sheet material layers, the second reinforcing mat, the 3rd artificial stone sheet material layers.

3. building heat preservation artificial stone according to claim 2, is characterized in that: described natural abandoned mine rubble is calcite mine tailing rubble or marble rubble or grouan mine tailing rubble or gold mine abandoned mine rubble or combination wherein.

4. building heat preservation artificial stone according to claim 3, is characterized in that: described natural abandoned mine rubble 60 parts, alkali proof fiber 0.8 part, hydrophober 0.8 part; Silica flour 2 parts; Fast hard agent 0.6 part; 0.2 part, glue.

5. building heat preservation artificial stone according to claim 2, is characterized in that: described enhancing net is steel mesh, and the steel wire diameter of described steel mesh is the mesh width 8-15mm of 0.8-1.2mm, described steel mesh.

6. building heat preservation artificial stone according to claim 6, is characterized in that: the steel wire diameter of described steel mesh is 1mm, and the mesh width of described steel mesh is 10mm.

7. a making method for building heat preservation artificial stone, comprises successively and makes slurry stage, laying slurry stage and curing schedule;

Described making slurry stage is added water by the material of following components by weight percent to stir to form slurry: cement 40 parts; Natural abandoned mine rubble 50-70 part, alkali proof fiber 0.5-1 part, hydrophober 0.5-1 part; Silica flour 1.5-2.5 part; Fast hard agent 0.3-1 part; Glue 0.1-0.3 part;

The process of described laying slurry stage is:

A, tiling lagging material;

B, tile the first layer slurry on lagging material;

C, on the first layer slurry tile first strengthen net;

D, strengthen online tiling second layer slurry first;

E, on second layer slurry tile second strengthen net;

F, strengthen online tiling third layer slurry second;

Described curing schedule is curing under ambient temperature and moisture condition after laying slurry stage.

8. the making method of building heat preservation artificial stone according to claim 7, is characterized in that: also comprise surface treatment step after described curing schedule, described surface treatment is for polishing smooth or be processed into rain stone effect or being processed into sandrock effect imitating.

9. the making method of the building heat preservation artificial stone according to claim 7 or 8, is characterized in that: the thickness of described the first layer slurry and described second layer slurry is 6-10mm, and the thickness of described third layer slurry is 8-15mm.

10. the making method of building heat preservation artificial stone according to claim 9, is characterized in that: described first enhancing net and described second strengthens net and is steel mesh, and the steel wire diameter of described steel mesh is the mesh width 8-15mm of 0.8-1.2mm, described steel mesh.