CN101805163A - Non-ignitable thermal insulation material for quickly solidifying fireproof insulation board - Google Patents
Non-ignitable thermal insulation material for quickly solidifying fireproof insulation board Download PDFInfo
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- CN101805163A CN101805163A CN 201010134507 CN201010134507A CN101805163A CN 101805163 A CN101805163 A CN 101805163A CN 201010134507 CN201010134507 CN 201010134507 CN 201010134507 A CN201010134507 A CN 201010134507A CN 101805163 A CN101805163 A CN 101805163A
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- Prior art keywords
- mortar
- gridding cloth
- fiberglass gridding
- slurry
- hpmc
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B28/00—Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements
- C04B28/02—Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements containing hydraulic cements other than calcium sulfates
- C04B28/06—Aluminous cements
- C04B28/065—Calcium aluminosulfate cements, e.g. cements hydrating into ettringite
-
- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B2111/00—Mortars, concrete or artificial stone or mixtures to prepare them, characterised by specific function, property or use
- C04B2111/20—Resistance against chemical, physical or biological attack
- C04B2111/28—Fire resistance, i.e. materials resistant to accidental fires or high temperatures
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Ceramic Engineering (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Inorganic Chemistry (AREA)
- Materials Engineering (AREA)
- Structural Engineering (AREA)
- Organic Chemistry (AREA)
- Curing Cements, Concrete, And Artificial Stone (AREA)
- Building Environments (AREA)
Abstract
The invention relates to a non-ignitable thermal insulation material for a quickly solidifying fireproof insulation board, which can effectively solve the problem that building material is difficult to burn, has favorable thermal insulation property and quickly solidifies. The technical scheme for solving the problems is as follows: the non-ignitable thermal insulation material is prepared from low-basicity sulphate aluminium cement, glazed hollow bead, re-dispersible polymer powder, hydroxypropylmethyl cellulose, brief fiber for mortar, mortar water retention plasticizer fatty acid butyl and glass fiber fiberglass mesh. The low-basicity sulphate aluminium cement, glazed hollow bead, re-dispersible polymer powder, hydroxypropylmethyl cellulose, brief fiber for mortar and mortar water retention plasticizer fatty acid butyl are evenly stirred to prepare into mixture; then, water is added, and the mixture is evenly stirred to prepare slurry; the slurry is quickly and immediately arranged on the glass fiber fiberglass mesh to ensure that the glass fiber fiberglass mesh is arranged in the slurry; and the mixture is solidified to obtain the non-ignitable thermal insulation material. Compared with the existing external wall insulation materials, the invention has scientific component, easy production and quick solidification, favorable thermal insulation and fire protection action, and great economic and social benefit.
Description
One, technical field
The present invention relates to building materials, particularly a kind of fireproof heated board does not fire lagging material with rapid solidification.
Two, background technology
The external wall outer insulation material of main flow use in the market mainly is polystyrene foam plate (eps), polystyrene extruded sheet (xps) or urethane, and these three kinds of lagging materials are because its heat-insulating property is relatively good, and easy construction is promoted the use of by the whole nation.But their fire-protection rating is the B2 level, is inflammable material, does not satisfy buildings fp needs, has therefore designed fireproof heated board.The fireproofing of fireproof heated board outside needs that a kind of heat-insulating property is good, fire-protection rating is high, and setting rate fast, easy to process do not fire lagging material, the present invention is not fired lagging material with regard to what above-mentioned performance requriements had been invented rapid solidification that fireproof heated board uses.
Three, summary of the invention
At above-mentioned situation, for overcoming the prior art defective, the present invention's purpose just provides a kind of fireproof heated board and does not fire lagging material with rapid solidification, it was both nonflammable effectively to solve material of construction, the problem of the good and rapid solidification of heat-insulating property again, the technical scheme of its solution is, this material of construction is by the volume percent meter: low alkali aluminosulfate cement 25~45%, glass bead 45~69%, redispersible latex powder 4~9%, HPMC 1~3%, mortar staple fibre 0.5~1.5%, mortar water conservation softening agent lipid acid fourth fat 0.2~0.8%, summation be 100% and fiberglass gridding cloth make, or by weight percent meter: low alkali aluminosulfate cement 80-84%, glass bead 7-9%, redispersible latex powder 3-5%, HPMC 3-4%, mortar staple fibre 2-3%, mortar water conservation softening agent lipid acid fourth fat 0.7-1%, summation be 100% and fiberglass gridding cloth make; Wherein, to hang down the alkali aluminosulfate cement, glass bead, redispersible latex powder, HPMC, mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound, add entry then, the even form slurry of restir, amount of water and compound weight ratio be 22: 78 (be water: compound=22: 78), evenly place slurry on the fiberglass gridding cloth fast immediately then, thickness is 2-5mm, make fiberglass gridding cloth place slurry, 10-35 ℃ solidified 40-60 minute rapid solidification of the present invention do not fire lagging material, be effective on the external wall outer insulation; Said low alkali aluminosulfate cement is white or off-white color flowing powder, granularity 80 orders (98% passes through), tap density 400-550 grams per liter, residual part of (at 1000 ℃) 10 ± 2% of heat-flash, 5 ℃ of minimum film-forming temperatures; Said glass bead is a kind of acid glassiness lava mineral substance (pitchstone ore in sand form); inner porous; surface vitreous sealing; be the thin footpath of spherule particle; be a kind of high performance novel inorganic light heat-insulating material that has, granularity is 0.5-1.5mm, and thermal conductivity is 0.032-0.045w/m.k; refractoriness is 1000-1200 ℃, and the accumulation capacity is 10-60kg/m
3Said redispersible latex powder is vinyl acetate and ethylene carbonate-VeoVa or binary or ternary multipolymers such as ethene or acrylate, the modified emulsion powder that the process spraying drying obtains, has good redispersible, again be dispersed into emulsion when contacting, and its chemical property and initial latex are identical with water; Said HPMC claims the 2-HPMC again, for white or off-white color is fibrous or granulated powders, odorless, almost insoluble in dehydrated alcohol, ether, acetone, in cold water, be swelled into the colloidal solution of clarification or little muddiness, viscosity 75000-200000Pa.s; Said mortar claims staple fiber again with staple fibre, and man-made fiber such as polypropylene filament bundle are cut off or break the fiber that becomes to be equivalent to various natural fiber length, also available natural fiber, as whisker and asbestos, length is 6-10mm, and diameter is 15 μ m, intensity is 800Gpa, modulus 41Gpa; Said fiberglass gridding cloth is to be base material with the glass fibre woven fabrics, soak coating through the anti-emulsion of polymer, thereby have good alkali-resistivity, snappiness and through broadwise high resistance pulling force, be widely used in the buildings external and internal wall, insulation, fire prevention, cracking resistance etc., fiberglass gridding cloth is based on alkali-resistant glass fiber mesh cloth, (alkali-free glass fiber yarn major ingredient is a silicate to alkali-free glass fiber yarn in the employing, chemical stability is good) knit and form through weave construction-leno weave strand, after alkali resistant liquid, the typing of elevated temperature heat such as toughener is handled; Lipid acid acid fourth fat is as mortar water conservation softening agent, and molecular formula is ORCOOCH
2CH
2CH
2CH
3
Component science of the present invention is easily produced, and has rapid solidification, and good insulation and anti-fire action are arranged again, be existing external-wall heat-insulation material can't compare, economic and social benefit is huge.
Four, embodiment
Below in conjunction with embodiment the specific embodiment of the present invention is elaborated.
Embodiment 1
The present invention in force; can be by the volume percent meter: low alkali aluminosulfate cement 30%; glass bead 60%; redispersible latex powder 6%; HPMC 2%; mortar staple fibre 1.5%; mortar water conservation softening agent lipid acid fourth fat 0.5% and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio be 22: 78 (be water: compound=22: 78); evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry; solidified 50 minutes at 15 ℃, rapid solidification of the present invention do not fire lagging material.
Embodiment 2
The present invention can also be by the volume percent meter: low alkali aluminosulfate cement 40%; glass bead 50%; redispersible latex powder 7.5%; HPMC 1%; mortar staple fibre 0.5%; mortar water conservation softening agent lipid acid fourth fat 1%; summation be 100% and fiberglass gridding cloth make; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio be 22: 78 (be water: compound=22: 78); evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry; solidified 60 minutes at 10 ℃, rapid solidification of the present invention do not fire lagging material.
Embodiment 3
The present invention also can be by the volume percent meter: low alkali aluminosulfate cement 25%; glass bead 65%; redispersible latex powder 5%; HPMC 3%; mortar staple fibre 1.2%; mortar water conservation softening agent lipid acid fourth fat 0.8% and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio be 22: 78 (be water: compound=22: 78); evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry; solidified 40 minutes at 28 ℃, rapid solidification of the present invention do not fire lagging material.
Embodiment 4
The present invention also can be by the volume percent meter: low alkali aluminosulfate cement 36.1%; glass bead 54.1%; redispersible latex powder 6%; HPMC 2.2%; mortar staple fibre polypropylene 1.1%; mortar water conservation softening agent lipid acid fourth fat 0.5% and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio be 22: 78 (be water: compound=22: 78); evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry; solidified 40 minutes at 30 ℃, rapid solidification of the present invention do not fire lagging material.
Embodiment 5
The present invention also can be by 41.67 cubic decimeters of low alkali aluminosulfate cements; 62.505 cubic decimeters of glass beads; 7 cubic decimeters of redispersible latex powders; 2.58 cubic decimeters of HPMC; 1.35 cubic decimeters of staple fibre polypropylene; 0.645 cubic decimeter in mortar water conservation softening agent lipid acid fourth fat and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio be 22: 78 (be water: compound=22: 78); evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry; solidified 45 minutes at 30 ℃, rapid solidification of the present invention do not fire lagging material.
Embodiment 6
The present invention also can be by weight percent meter: low alkali aluminosulfate cement 81.5%; glass bead 7.8%; redispersible latex powder 3.8%; HPMC 3.6%; mortar staple fibre 2.4%; mortar water conservation softening agent lipid acid fourth fat 0.9% and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; amount of water and compound weight ratio are 22: 78; the even form slurry of restir; evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry; solidified 50 minutes at 25 ℃; rapid solidification of the present invention do not fire lagging material, be effective on the external wall outer insulation.
Embodiment 7
The present invention also can be by the weight meter: low alkali aluminosulfate cement 75.006kg; glass bead 7.188kg; redispersible latex powder 3.5kg; HPMC 3.328kg; mortar staple fibre 2.215kg; mortar water conservation softening agent lipid acid fourth fat 0.832kg and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; amount of water and compound weight ratio are 22: 78; the even form slurry of restir; evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry; solidified 50 minutes at 25 ℃; rapid solidification of the present invention do not fire lagging material, be effective on the external wall outer insulation.
It is to be noted that each component raw material is the commercially available prod among the present invention, creative contribution of the present invention is, with the scientific and reasonable combination of component raw material, and, produce a kind of new lagging material that do not fire of original creation through the scientific approach of novelty, be effective to the production of fireproof heated board.
Non-fire material lagging material of the present invention has met or exceeded the requirement on the material of construction after tested fully, and its compressive strength is greater than 100kpa, dimensional stability≤2.0mm, fire-protection rating is the A level, thermal conductivity≤0.041, water-intake rate≤1.5, the tensile strength 〉=0.10Mpa of vertical panel face direction.
Insulation material of the present invention is compared with existing external-wall heat-insulation material, improved the fire-protection rating of external-wall heat-insulation material, reach the A level, realized the requirement of the safety first of building, make the Building Fire Protection problem of social concerns obtain effective solution, having improved the class in house, is the creation on exterior-wall heat insulation, the fire proofing material, has huge economic and social benefit.
Claims (9)
1. a fireproof heated board does not fire lagging material with rapid solidification; it is characterized in that; by the volume percent meter: low alkali aluminosulfate cement 25~45%; glass bead 45~69%; redispersible latex powder 4~9%; HPMC 1~3%; mortar staple fibre 0.5~1.5%; mortar water conservation softening agent lipid acid fourth fat 0.2~0.8%; summation be 100% and fiberglass gridding cloth make; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio are 22: 78; evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry, solidified 40-60 minute at 10-35 ℃.
2. fireproof heated board according to claim 1 does not fire lagging material with rapid solidification; it is characterized in that; by the volume percent meter: low alkali aluminosulfate cement 30%; glass bead 60%; redispersible latex powder 6%; HPMC 2%; mortar staple fibre 1.5%; mortar water conservation softening agent lipid acid fourth fat 0.5% and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio are 22: 78; evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry, solidified 50 minutes at 15 ℃.
3. fireproof heated board according to claim 1 does not fire lagging material with rapid solidification; it is characterized in that; by the volume percent meter: low alkali aluminosulfate cement 40%; glass bead 50%; redispersible latex powder 7.5%; HPMC 1%; mortar staple fibre 0.5%; mortar water conservation softening agent lipid acid fourth fat 1%; summation be 100% and fiberglass gridding cloth make; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio are 22: 78; evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry, solidified 60 minutes at 10 ℃.
4. fireproof heated board according to claim 1 does not fire lagging material with rapid solidification; it is characterized in that; by the volume percent meter: low alkali aluminosulfate cement 25%; glass bead 65%; redispersible latex powder 5%; HPMC 3%; mortar staple fibre 1.2%; mortar water conservation softening agent lipid acid fourth fat 0.8% and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio are 22: 78; evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry, solidified 40 minutes at 28 ℃.
5. fireproof heated board according to claim 1 does not fire lagging material with rapid solidification; it is characterized in that; by the volume percent meter: low alkali aluminosulfate cement 36.1%; glass bead 54.1%; redispersible latex powder 6%; HPMC 2.2%; mortar staple fibre polypropylene 1.1%; mortar water conservation softening agent lipid acid fourth fat 0.5% and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio are 22: 78; evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry, solidified 40 minutes at 30 ℃.
6. fireproof heated board according to claim 1 does not fire lagging material with rapid solidification; it is characterized in that; by 41.67 cubic decimeters of low alkali aluminosulfate cements; 62.505 cubic decimeters of glass beads; 7 cubic decimeters of redispersible latex powders; 2.58 cubic decimeters of HPMC; 1.35 cubic decimeters of staple fibre polypropylene; 0.645 cubic decimeter in mortar water conservation softening agent lipid acid fourth fat and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio are 22: 78; evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry, solidified 45 minutes at 30 ℃.
7. a fireproof heated board does not fire lagging material with rapid solidification, it is characterized in that, by weight percent meter: low alkali aluminosulfate cement 80-84%, glass bead 7-9%, redispersible latex powder 3-5%, HPMC 3-4%, mortar be with staple fibre 2-3%, mortar water conservation softening agent lipid acid fourth fat 0.7-1%, summation be 100% and fiberglass gridding cloth make; Wherein, to hang down alkali aluminosulfate cement, glass bead, redispersible latex powder, HPMC, mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; the even form slurry of restir; amount of water and compound weight ratio are 22: 78, fast slurry are evenly placed on the fiberglass gridding cloth immediately then, and thickness is 2-5mm; make fiberglass gridding cloth place slurry, solidified 40-60 minute at 10-35 ℃.
8. fireproof heated board according to claim 7 does not fire lagging material with rapid solidification; it is characterized in that; by weight percent meter: low alkali aluminosulfate cement 81.5%; glass bead 7.8%; redispersible latex powder 3.8%; HPMC 3.6%; mortar staple fibre 2.4%; mortar water conservation softening agent lipid acid fourth fat 0.9% and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; amount of water and compound weight ratio are 22: 78; the even form slurry of restir; evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry, solidified 50 minutes at 25 ℃.
9. fireproof heated board according to claim 7 does not fire lagging material with rapid solidification; it is characterized in that; by the weight meter: low alkali aluminosulfate cement 75.006kg; glass bead 7.188kg; redispersible latex powder 3.5kg; HPMC 3.328kg; mortar staple fibre 2.215kg; mortar water conservation softening agent lipid acid fourth fat 0.832kg and fiberglass gridding cloth are made; wherein; to hang down the alkali aluminosulfate cement; glass bead; redispersible latex powder; HPMC; mortar stirs with staple fibre and mortar water conservation softening agent lipid acid fourth fat and makes compound; add entry then; amount of water and compound weight ratio are 22: 78; the even form slurry of restir; evenly place slurry on the fiberglass gridding cloth fast immediately then; thickness is 2-5mm; make fiberglass gridding cloth place slurry, solidified 50 minutes at 25 ℃.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102535689A (en) * | 2012-01-11 | 2012-07-04 | 泛亚环保(中国)有限公司 | Self-heat preservation system of wood-wool cement board (WWCB) demoulding-free template |
CN104230244A (en) * | 2014-09-12 | 2014-12-24 | 普定县银丰农业科技发展有限公司 | Energy-saving insulation fireproof plate |
CN108178564A (en) * | 2018-01-24 | 2018-06-19 | 成都三泰智能设备有限公司 | A kind of st types fire protection flame retarding composite material |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101182174A (en) * | 2007-11-07 | 2008-05-21 | 武汉壁虎节能新材料有限责任公司 | Modified vitreous hollow micro-beads heat-insulating fireproof mortar |
-
2010
- 2010-03-29 CN CN 201010134507 patent/CN101805163A/en active Pending
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101182174A (en) * | 2007-11-07 | 2008-05-21 | 武汉壁虎节能新材料有限责任公司 | Modified vitreous hollow micro-beads heat-insulating fireproof mortar |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102535689A (en) * | 2012-01-11 | 2012-07-04 | 泛亚环保(中国)有限公司 | Self-heat preservation system of wood-wool cement board (WWCB) demoulding-free template |
CN104230244A (en) * | 2014-09-12 | 2014-12-24 | 普定县银丰农业科技发展有限公司 | Energy-saving insulation fireproof plate |
CN108178564A (en) * | 2018-01-24 | 2018-06-19 | 成都三泰智能设备有限公司 | A kind of st types fire protection flame retarding composite material |
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Application publication date: 20100818 |