CN106948568A - A kind of inorganic chemistry crystallizes solidifyingization heat preservation decoration integrative material manufacture craft - Google Patents

Abstract

The present invention discloses a kind of inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft and inorganic solidifyingization insulation core, is related to building material field.Inorganic chemistry crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, and the magnesia for solidifyingization that foam is obtained into insulation material slurry with the stirring of organic expanded beads；Insulation material slurry is cementing with the aluminum facestock in aluminum facestock surface crystallization and freezing, and under gravity, obtains inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material.Inolrganic chemicals stir the insulation material slurry to be formed with organic material, by crystallize solidifyingization and be cemented under gravity aluminum facestock obtain that harmless, compression strength is high, thermal conductivity factor is low, the inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material of light weight, fire resistance and good waterproof performance, it is and environmentally safe in obtained inorganic chemistry crystallizes solidifyingization heat preservation decoration integrative materials process.

Description

A kind of inorganic chemistry crystallizes solidifyingization heat preservation decoration integrative material manufacture craft

Technical field

The present invention relates to building material field, solidifyingization is crystallized in particular to a kind of inorganic chemistry heat insulation decoration integrated Change material manufacture craft.

Background technology

Insulation and decoration integrated plate is also called heat insulation decoration integrated plate, represents the hair of modern architecture building enclosure and material Open up direction.Heat insulation decoration integrated plate is applicable not only to the exterior-wall heat insulation and decoration of new building, be also applied for Old building energy-conservation and Decorative reformation；All kinds of public buildings are not only suitable for, the exterior-wall heat insulation of residential housing is also applied for；It is not only suitable for north cold area Building, be also applied for southern hot area building.

Heat insulation decoration integrated plate is made up of panel, heat preservation core layer.

Existing heat preservation core layer is divided into according to material type：Organic heat-insulating sandwich layer and inorganic heat preservation sandwich layer.Organic heat-insulating core Layer insulation material mainly has molding styrofoam (EPS sheet；EPS：Expanded Polystyrene), it is extruded polystyrene board (XPS), hard Matter polyurathamc, hard foamed phenolic resin etc.；Inorganic heat preservation sandwich layer insulation material mainly has：Expanded and vitrified small ball, expansion Perlite, foaming cement concrete, rock wool etc..

Above-mentioned existing heat preservation core layer still suffers from some shortcomings and have impact on its popularization and application, and its shortcoming is：

Fire resistance and water proofing property are poor；

The shaping of existing heat insulation core material material is harmful to environment and molding effect is poor, and existing heat preservation core layer is harmful；

Compression strength is low.

The content of the invention

Solidifyingization heat preservation decoration integrative material manufacture craft, nothing are crystallized it is an object of the invention to provide a kind of inorganic chemistry Chemical machine material stirs the insulation material slurry to be formed with organic material, by crystallizing solidifyingization and being cemented in aluminium under gravity Facestock processed obtains that harmless, compression strength is high, thermal conductivity factor is low, light weight, fire resistance and good waterproof performance it is inorganization Crystallization solidifyingization heat preservation decoration integrative material is learned, and solidifyingization heat preservation decoration integrative materials process is crystallized in obtained inorganic chemistry In it is environmentally safe.

What embodiments of the invention were realized in：

A kind of inorganic chemistry crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, by the magnesia for solidifyingization that foam with having The stirring of machine expanded beads obtains insulation material slurry；

Insulation material slurry is and cementing with aluminum facestock in aluminum facestock surface natural coagulation, obtains inorganic chemistry crystallization Solidifyingization heat preservation decoration integrative material.

Inventor has found：Existing organic heat-insulating core material fire resistance is poor, can only achieve GB8624-2012《Building wood Material and product burns grading performance》B grades of combustibility in standard, it is difficult to meet the flame-retardancy requirements of national regulation；And inorganic guarantor Warm core material is although fire-retardant up to standard, but its heat-insulating property is poor, and it, which exists, causes carcinogenic risk to human body.It is existing to have The shaping of machine heat preservation core layer and panel need to use adhesive bonds, cold press complex method, its and molding effect harmful to environment It is bad, easily produce the problems such as unsticking and foaming；And inorganic heat preservation sandwich layer just has cast-type construction in panel, its shrinkage is big, Bad adhesion.And inorganic and organic heat-insulating core material compression strength is not high, and load is poor.

Inventor devises above-mentioned inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft, by inorganic material Magnesia carries out foaming solidifyingization, then the good magnesia of solidifyingization that will foam is combined with organic expanded beads and stirs into thermal insulating material slurry Body, after after the solidification of insulation material slurry natural cooling, obtains inorganic chemistry and crystallizes solidifyingization heat preservation decoration integrative material.Due to nothing Chemical machine crystallization solidifyingization heat preservation decoration integrative material is before the forming slurry, and it is fluid properties, and operating personnel will can be incubated Material slurry is poured in aluminum facestock, and insulation material slurry is due to the mobility of Action of Gravity Field and fluid, insulation material slurry Fit, after solidifyingization to be crystallized, be cemented in aluminum facestock completely with mould or panel.Wherein, inorganic material magnesia conduct With being combined with the good organic expanded beads of insulation property after cementitious matter, foaming solidifyingization, the characteristics of it not only has organic material：Protect Warm nature is good, also with inorganic material the characteristics of：Good flame resistance, water absorption rate are low.Due to shaping can be poured so that by inorganization Learn the inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material that crystallization solidifyingization heat preservation decoration integrative material manufacture craft makes It is high and environment is not polluted with the tensile bond intensity of aluminum facestock.Inolrganic chemicals stir the guarantor to be formed with organic material Adiabator slurry, by crystallize solidifyingization and be cemented under gravity aluminum facestock obtain harmless, compression strength it is high, Thermal conductivity factor is low, the inorganic chemistry of light weight, fire resistance and good waterproof performance crystallization solidifyingization heat preservation decoration integrative material, and It is environmentally safe in obtained inorganic chemistry crystallization solidifyingization heat preservation decoration integrative materials process.

In an embodiment of the present invention：

Magnesia is foamed by inorganic chemical foaming agent.

In an embodiment of the present invention：

Magnesia passes through magnesium chloride bittern solidifyingization.

In an embodiment of the present invention：

The concentration of magnesium chloride is 25-35% in magnesium chloride bittern.

In an embodiment of the present invention：

Insulation material slurry is also added with anti-slow setting modifying agent.

In an embodiment of the present invention：

Organic expanded beads are anti-flammability foam beads.

In an embodiment of the present invention：

Inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft in magnesia, inorganic chemical foaming agent, Magnesium chloride bittern, anti-slow setting modifying agent and anti-flammability foam beads by weight, including：

80000-180000 parts of magnesia, 130-350 parts of inorganic chemical foaming agent, magnesium chloride bittern 50000-150000 Part, anti-300-1500 parts of slow setting modifying agent, 5000-15000 parts of anti-flammability foam beads.

In an embodiment of the present invention：

Magnesia, inorganic chemical foaming agent, magnesium chloride bittern, anti-slow setting modifying agent and anti-flammability foam beads are by weight Part meter, including：

100000-150000 parts of magnesia, 158-290 parts of inorganic chemical foaming agent, magnesium chloride bittern 87000-130000 Part, anti-340-1300 parts of slow setting modifying agent, 8000-10000 parts of anti-flammability foam beads.

In an embodiment of the present invention：

By weight, 28500-50000 parts of bittern is also converted in inorganic chemical foaming agent.

In an embodiment of the present invention：

The surface of inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material is provided with aluminium foil cloth.

Technical scheme at least has the advantages that：

A kind of inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft that the present invention is provided, inorganic chemistry material Material stirs the insulation material slurry to be formed with organic material, is obtained by crystallizing solidifyingization and being cemented in aluminum facestock under gravity To harmless, compression strength is high, thermal conductivity factor is low, the inorganic chemistry crystallization of light weight, fire resistance and good waterproof performance it is solidifying Change heat preservation decoration integrative material, and to environment in obtained inorganic chemistry crystallization solidifyingization heat preservation decoration integrative materials process It is pollution-free.

Brief description of the drawings

Technical scheme in order to illustrate more clearly the embodiments of the present invention, below will be attached to what is used needed for embodiment Figure is briefly described, it will be appreciated that the following drawings illustrate only certain embodiments of the present invention, therefore is not construed as pair The restriction of scope, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to this A little accompanying drawings obtain other related accompanying drawings.

Fig. 1 is first of inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft in the embodiment of the present invention 1 Schematic diagram；

Fig. 2 is second of inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft in the embodiment of the present invention 1 Schematic diagram.

Icon：10- inorganic chemistry crystallizes the first schematic diagram of solidifyingization heat preservation decoration integrative material manufacture craft；20- without Chemical machine crystallizes the second schematic diagram of solidifyingization heat preservation decoration integrative material manufacture craft.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is A part of embodiment of the present invention, rather than whole embodiments.Present invention implementation generally here described and illustrated in accompanying drawing The component of example can be arranged and designed with a variety of configurations.

Therefore, the detailed description of embodiments of the invention below to providing in the accompanying drawings is not intended to limit claimed The scope of the present invention, but be merely representative of the present invention selected embodiment.Based on the embodiment in the present invention, this area is common The every other embodiment that technical staff is obtained under the premise of creative work is not made, belongs to the model that the present invention is protected Enclose.

It should be noted that：Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined in individual accompanying drawing, then it further need not be defined and explained in subsequent accompanying drawing.

In the description of the invention, it is necessary to explanation, term " interior ", " under " etc. instruction orientation or position relationship be base In orientation shown in the drawings or position relationship, or the orientation usually put when using of the invention product or position relationship, only It is to be described for the ease of the description present invention with simplified, rather than indicates or imply that the device or element of meaning must be with specifically Orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.In addition, term " first ", " the Two " etc. are only used for distinguishing description, and it is not intended that indicating or implying relative importance.

In the description of the invention, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " setting ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or be integrally connected；Can be Mechanically connect, can be joined directly together, can also be indirectly connected to by intermediary, can be the connection of two element internals. For the ordinary skill in the art, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.

Embodiment 1

Fig. 1 is refer to, Fig. 1 makes work for the inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material that the present embodiment is provided First schematic diagram 10 of skill.

It should be noted that in Fig. 1, representing inorganic chemistry crystallization solidifyingization without solidifyingization heat insulation decoration integrated plate with metal and protecting The decoration integrated material of temperature.

Inorganic chemistry crystallizes solidifyingization heat preservation decoration integrative material manufacture craft：

The magnesia for solidifyingization that foam obtains insulation material slurry with the stirring of organic expanded beads；

Insulation material slurry is cementing with aluminum facestock in aluminum facestock surface crystallization and freezing, and under gravity, obtains Inorganic chemistry crystallizes solidifyingization heat preservation decoration integrative material.

Insulation material slurry crystallizes solidifyingization and is cemented in aluminum facestock surface under gravity, with aluminum facestock formation one Body, obtains inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material.

Wherein, magnesia is foamed first, solidifyingization processing.Inorganic chemistry crystallization solidifyingization provided such as Fig. 2 for the present embodiment Second schematic diagram 20 of heat preservation decoration integrative material manufacture craft.

It should be noted that in fig. 2, representing inorganic chemistry crystallization solidifyingization without solidifyingization heat insulation decoration integrated plate with metal and protecting The decoration integrated material of temperature.

Magnesia is foamed as cementitious matter by inorganic chemical foaming agent, and by magnesium chloride bittern solidifyingization, further , the concentration of magnesium chloride is 25-35% in magnesium chloride bittern.

Magnesia by foaming, solidifyingization processing is stirred with organic expanded beads, so as to form insulation material slurry.

Further, anti-slow setting modifying agent is added with insulation material slurry.Organic expanded beads are anti-flammability foam Particle.

After insulation material slurry after aluminum facestock crystallization solidifyingization, insulation material slurry is cemented in the surface of aluminum facestock, So as to obtain inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material.

For the effect for preferably playing fire prevention, waterproof, keeping away tide, inorganic chemistry crystallizes aluminium in solidifyingization heat preservation decoration integrative material The place that facestock processed is not covered with, is equipped with aluminium foil cloth.

Specifically, magnesia, inorganic chemistry in inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft Foaming agent, magnesium chloride bittern, anti-slow setting modifying agent and anti-flammability foam beads by weight, including：

Magnesia：80000-180000 parts, inorganic chemical foaming agent：130-350 parts, magnesium chloride bittern：50000- 150000 parts, anti-slow setting modifying agent：300-1500 parts, anti-flammability foam beads：5000-15000 parts.

By weight, it is preferred that magnesia：100000-150000 parts, inorganic chemical foaming agent：158-290 parts, chlorine Change magnesium bittern：87000-130000 parts, anti-slow setting modifying agent：340-1300 parts, anti-flammability foam beads：8000-10000 parts, Wherein, 28500-50000 parts of bittern is also converted when being foamed to magnesia, in inorganic chemical foaming agent.

Solidifyingization heat preservation decoration integrative material manufacture craft is crystallized for clear interpretation inorganic chemistry, the present embodiment also provides one Part is specific to be formulated, and the first Ju Ti Pei Fang of inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft is：

Magnesia is 100kg, and inorganic chemical foaming agent is 158g, and magnesium chloride bittern is 87kg, and anti-slow setting modifying agent is 340g, anti-flammability foam beads are 8kg, wherein, when being foamed to magnesia, also converted in inorganic chemical foaming agent 28.5kg bittern.

The inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material for being made and solidifying by above-mentioned formula has fire resistance And the characteristics of good waterproof performance, it can draw from the detection data being listed herein below：

Following inspection is obtained according to GB/T 10294-2008, GB/T 8810-2005, GB/T 6343-2009 standard detections As a result：

Thermal conductivity factor (mean temperature：25℃)：0.049W/(m.k)；Water absorption rate：12%；Apparent density：142kg/m³。

According to GB8624-2012《Construction material and product burns grading performance》Standard detection obtains following inspection result：

Gross calorific value：0.6MJ/kg；Average temperature rising in stove：7℃；The sustained combustion time：0；Mass loss rate：29%.

Solidifyingization heat preservation decoration integrative material manufacture craft is crystallized for clear interpretation inorganic chemistry, the present embodiment also provides one Part is specific to be formulated, and second of Ju Ti Pei Fang of inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft is：

Magnesia is 150kg, and inorganic chemical foaming agent is 290g, and magnesium chloride bittern is 130kg, and anti-slow setting modifying agent is 1300g, anti-flammability foam beads are 10kg, wherein, when being foamed to magnesia, also converted in inorganic chemical foaming agent 50kg bittern.

The inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material for being made and solidifying by above-mentioned formula has fire resistance And the characteristics of good waterproof performance, it can draw from the detection data being listed herein below：

Following inspection is obtained according to GB/T 10294-2008, GB/T 8810-2005, GB/T 6343-2009 standard detections As a result：

Thermal conductivity factor (mean temperature：25℃)：0.049W/(m.k)；Water absorption rate：12%；Apparent density：141kg/m³。

According to GB8624-2012《Construction material and product burns grading performance》Standard detection obtains following inspection result：

Gross calorific value：0.6MJ/kg；Average temperature rising in stove：7℃；The sustained combustion time：0；Mass loss rate：29%.

Solidifyingization heat preservation decoration integrative material manufacture craft is crystallized for clear interpretation inorganic chemistry, the present embodiment also provides one Part is specific to be formulated, and the third Ju Ti Pei Fang of inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft is：

Magnesia is 120kg, and inorganic chemical foaming agent is 230g, and magnesium chloride bittern is 100kg, and anti-slow setting modifying agent is 600g, anti-flammability foam beads are 9kg, wherein, when being foamed to magnesia, 42kg has also been converted in inorganic chemical foaming agent Bittern.

The inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material for being made and solidifying by above-mentioned formula has fire resistance And the characteristics of good waterproof performance, it can draw from the detection data being listed herein below：

Following inspection is obtained according to GB/T 10294-2008, GB/T 8810-2005, GB/T 6343-2009 standard detections As a result：

Thermal conductivity factor (mean temperature：25℃)：0.049W/(m.k)；Water absorption rate：12%；Apparent density：142kg/m³。

According to GB8624-2012《Construction material and product burns grading performance》Standard detection obtains following inspection result：

Gross calorific value：0.6MJ/kg；Average temperature rising in stove：7℃；The sustained combustion time：0；Mass loss rate：29%.

Inventor has found：Existing organic heat-insulating core material fire resistance is poor, can only achieve GB8624-2012《Building wood Material and product burns grading performance》B grades of combustibility in standard, it is difficult to meet the flame-retardancy requirements of national regulation；And inorganic guarantor Warm core material is although fire-retardant up to standard, but its heat-insulating property is poor, and it, which exists, causes carcinogenic risk to human body.It is existing to have The shaping of machine heat preservation core layer and panel need to use adhesive bonds, cold press complex method, its and molding effect harmful to environment It is bad, easily produce the problems such as unsticking and foaming；And inorganic heat preservation sandwich layer just has cast-type construction in panel, its shrinkage is big, Bad adhesion.And inorganic and organic heat-insulating core material compression strength is not high, and load is poor.

Inventor devises above-mentioned inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft, by inorganic material Magnesia carries out foaming solidifyingization, then the good magnesia of solidifyingization that will foam is combined with organic expanded beads and stirs into thermal insulating material slurry Body, after after the solidification of insulation material slurry natural cooling, obtains inorganic chemistry and crystallizes solidifyingization heat preservation decoration integrative material.Due to nothing Chemical machine crystallization solidifyingization heat preservation decoration integrative material is before the forming slurry, and it is fluid properties, and operating personnel will can be incubated Material slurry is poured in aluminum facestock, and insulation material slurry is due to the mobility of Action of Gravity Field and fluid, insulation material slurry Fitted completely with aluminum facestock, after solidification to be crystallized, obtain inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material.Wherein, Inorganic material magnesia is as cementitious matter, and with being combined with the good organic expanded beads of insulation property after solidifyingization that foam, it is not only The characteristics of having organic material：Good heat preservation performance, also with inorganic material the characteristics of：Good flame resistance, water absorption rate are low.Pass through inorganic chemistry Crystallize the inorganic chemistry that solidifyingization heat preservation decoration integrative material manufacture craft makes crystallize solidifyingization heat preservation decoration integrative material and The tensile bond intensity of aluminum facestock is high and environment is not polluted.Inolrganic chemicals stir the insulation to be formed with organic material Material slurry, obtains that harmless, compression strength is high, lead by crystallizing solidifyingization and being cemented in aluminum facestock under gravity Hot coefficient is low, the inorganic chemistry of light weight, fire resistance and good waterproof performance crystallization solidifyingization heat preservation decoration integrative material, and is making It is environmentally safe in the inorganic chemistry crystallization solidifyingization heat preservation decoration integrative materials process obtained.

It should be noted that the present embodiment also provides a kind of inorganic solidifyingization insulation core, inorganic solidifyingization is incubated core by inorganization Learn made from crystallization solidifyingization heat preservation decoration integrative material manufacture craft.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent, improvement etc., should be included within the scope of the present invention.

Claims (10)

1. a kind of inorganic chemistry crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, it is characterised in that：

The magnesia for solidifyingization that foam is obtained into insulation material slurry with the stirring of organic expanded beads；

The insulation material slurry is cementing with the aluminum facestock in aluminum facestock surface crystallization and freezing, and under gravity, Obtain the inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material.

2. inorganic chemistry according to claim 1 crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, its feature exists In：

The magnesia is foamed by inorganic chemical foaming agent.

3. inorganic chemistry according to claim 2 crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, its feature exists In：

The magnesia passes through magnesium chloride bittern solidifyingization.

4. inorganic chemistry according to claim 3 crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, its feature exists In：

The concentration of magnesium chloride is 25-35% in the magnesium chloride bittern.

5. inorganic chemistry according to claim 4 crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, its feature exists In：

The insulation material slurry is also added with anti-slow setting modifying agent.

6. inorganic chemistry according to claim 5 crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, its feature exists In：

Organic expanded beads are anti-flammability foam beads.

7. inorganic chemistry according to claim 6 crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, its feature exists In：

The magnesia, the inorganic chemistry in the inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material manufacture craft Foaming agent, the magnesium chloride bittern, the anti-slow setting modifying agent and the anti-flammability foam beads by weight, including：

Described magnesia 80000-180000 parts, described inorganic chemical foaming agent 130-350 parts, the magnesium chloride bittern 50000- 150000 parts, anti-300-1500 parts of the slow setting modifying agent, 5000-15000 parts of the anti-flammability foam beads.

8. inorganic chemistry according to claim 7 crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, its feature exists In：

The magnesia, the inorganic chemical foaming agent, the magnesium chloride bittern, the anti-slow setting modifying agent and described fire-retardant Property foam beads by weight, including：

Described magnesia 100000-150000 parts, described inorganic chemical foaming agent 158-290 parts, the magnesium chloride bittern 87000-130000 parts, anti-340-1300 parts of the slow setting modifying agent, 8000-10000 parts of the anti-flammability foam beads.

9. inorganic chemistry according to claim 8 crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, its feature exists In：

By weight, 28500-50000 parts of bittern is also converted in the inorganic chemical foaming agent.

10. inorganic chemistry according to claim 1 crystallizes solidifyingization heat preservation decoration integrative material manufacture craft, its feature exists In：

The surface of the inorganic chemistry crystallization solidifyingization heat preservation decoration integrative material is provided with aluminium foil cloth.