CN105218061A - A kind of Building Fire Protection lagging material - Google Patents

Abstract

A kind of Building Fire Protection lagging material, the raw material comprising following weight part is prepared from: mixture 65-75 part of vitreous hollow beads and hydrophobic type closed-cell expanded perlite; Dimethyl propylene phosphoric acid salt 8-12 part; Poly-silicon borine 8-15 part; Magnesium oxide 5-7 part; Water glass 100-105 part; Ceramic fiber 7-13 part; Sulfonated petro-leum 3-7 part; Starch ethers 4-8 part; Methylcellulose gum 4-7 part.Building Fire Protection lagging material provided by the invention, not only has good heat insulation effect, and fire resistance is also very excellent.

Description

A kind of Building Fire Protection lagging material

Technical field

The present invention relates to building material technical field, be specially a kind of Building Fire Protection lagging material.

Background technology

The building energy consumption of developed countries accounts for 30% ~ 40% of social total energy consumption, and China's construction unit area energy consumption is still 3 ~ 5 times of the close developed country of weather.Building energy conservation is with the largest potentiality in various energy saving way, the most direct efficient manner.In building energy consumption, the energy consumption caused by exterior wall accounts for 60% of building total energy consumption, and thus wall thermal insulating is the key realizing building energy conservation.Current China building exterior wall heat preserving material therefor mainly contains two classes: (1) organic lagging material: polystyrene foamed material, foam rubbery material, polyurethane foamed material etc.; (2) mineral-type lagging material: rock wool, slag wool, glass wool, cement foaming material etc.Although wherein organic lagging material good heat preservation performance, unit weight is little, but heat-resisting difference, easy firing, and discharge large calorimetric when burning, produce a large amount of poison gas, not only can accelerate everybody to spread, and easily cause casualties, along with country is to the attention of fire safety problem, and building field fire safety rules widely popularize enforcement, its use range will be more and more less.And although existing organic, mineral-type lagging material are heat-resisting, good flame retardation effect, unit weight is large, heat insulation effect is not good enough.

Therefore, a kind of new Building Fire Protection lagging material of necessary design.

Summary of the invention

Technical problem solved by the invention is to provide a kind of Building Fire Protection lagging material, thus solves the problem in above-mentioned background technology.

Technical problem solved by the invention realizes by the following technical solutions:

A kind of Building Fire Protection lagging material, the raw material comprising following weight part is prepared from:

Mixture 65-75 part of vitreous hollow beads and hydrophobic type closed-cell expanded perlite;

Dimethyl propylene phosphoric acid salt 8-12 part;

Poly-silicon borine 8-15 part;

Magnesium oxide 5-7 part;

Water glass 100-105 part;

Ceramic fiber 7-13 part;

Sulfonated petro-leum 3-7 part;

Starch ethers 4-8 part;

Methylcellulose gum 4-7 part.

As preferred technical scheme, Building Fire Protection lagging material of the present invention, is prepared from by the raw material of following weight part:

70 parts, the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite;

Dimethyl propylene phosphoric acid salt 10 parts;

Poly-silicon borine 8 parts;

6 parts, magnesium oxide;

Water glass 100 parts;

Ceramic fiber 10 parts;

Sulfonated petro-leum 5 parts;

Starch ethers 7 parts;

Methylcellulose gum 5 parts.

As preferred technical scheme, in the mixture of vitreous hollow beads of the present invention and hydrophobic type closed-cell expanded perlite, the weight ratio of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is 3:2.

In the present invention, the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite, namely has heat insulating advantage, can prevent fires again, especially acts synergistically with the dimethyl propylene phosphoric acid salt added, ensure that the fire resistance of this material of construction.Poly-silicon borine, magnesium oxide, water glass have great role for the anti-folding of raising and resistance to impact shock, adding of ceramic fiber makes to distribute in a large number crossed fiber in length and breadth in material of construction unit volume, can absorb or delay the appearance in crack, effectively can stop the development of microcrack, the frost resistance of material of construction, impermeability, shock resistance are significantly improved.Sulfonated petro-leum, starch ethers, by introducing nonionic key in the polysaccharide chain of starch, enable in alkali system, keep steady state and rapid solution, with methylcellulose gum value, thus significantly improve anti-property and the anti-slipping property of hanging down.

A kind of Building Fire Protection lagging material, adopts following steps preparation:

(1) mixing material, first evenly become matrix fine powder to be dissolved in water dimethyl propylene phosphoric acid salt, poly-silicon borine, magnesium oxide, ceramic fiber, sulfonated petro-leum, starch ethers, methylcellulose gum by proportioning and obtain mixed solution, then above-mentioned mixed solution is evenly mixed in water glass, again the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is evenly poured into, batch mixing 30-50 minute;

(2) compression molding, be placed in mould by mixed material and shakeout, press compression moulding, compression ratio is 1: 2 ~ 1: 2.5, and after the demoulding, green compact are placed on underframe and prepare solidification;

(3) solidify, heat-treated by green compact, obtain Building Fire Protection lagging material through solidification, solidification value is 225 ~ 230 DEG C, and set time is 2 ~ 4h.

Owing to have employed above technical scheme, the present invention has following beneficial effect:

Building Fire Protection lagging material provided by the invention, through overtesting and facts have proved not only have good heat insulation effect, and fire resistance is also very excellent.

Embodiment

The technique means realized to make the present invention, creation characteristic, reaching object and effect is easy to understand, below in conjunction with specific embodiment, setting forth the present invention further.

Embodiment 1

A kind of Building Fire Protection lagging material, the raw material comprising following weight part is prepared from:

65 parts, the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite;

Dimethyl propylene phosphoric acid salt 8 parts;

Poly-silicon borine 8 parts;

5 parts, magnesium oxide;

Water glass 100 parts;

Ceramic fiber 7 parts;

Sulfonated petro-leum 3 parts;

Starch ethers 4 parts;

Methylcellulose gum 4 parts.

Prepared by employing following steps:

(1) mixing material, first evenly become matrix fine powder to be dissolved in water dimethyl propylene phosphoric acid salt, poly-silicon borine, magnesium oxide, ceramic fiber, sulfonated petro-leum, starch ethers, methylcellulose gum by proportioning and obtain mixed solution, then above-mentioned mixed solution is evenly mixed in water glass, again the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is evenly poured into, batch mixing 30 minutes;

(2) compression molding, be placed in mould by mixed material and shakeout, press compression moulding, compression ratio is 1: 2, and after the demoulding, green compact are placed on underframe and prepare solidification;

(3) solidify, heat-treated by green compact, obtain Building Fire Protection lagging material through solidification, solidification value is 225 DEG C, and set time is 2h.

Embodiment 2

A kind of Building Fire Protection lagging material, the raw material comprising following weight part is prepared from:

75 parts, the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite;

Dimethyl propylene phosphoric acid salt 12 parts;

Poly-silicon borine 15 parts;

7 parts, magnesium oxide;

Water glass 105 parts;

Ceramic fiber 13 parts;

Sulfonated petro-leum 7 parts;

Starch ethers 8 parts;

Methylcellulose gum 7 parts.

In the mixture of vitreous hollow beads of the present invention and hydrophobic type closed-cell expanded perlite, the weight ratio of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is 3:2.

Prepared by employing following steps:

(1) mixing material, first evenly become matrix fine powder to be dissolved in water dimethyl propylene phosphoric acid salt, poly-silicon borine, magnesium oxide, ceramic fiber, sulfonated petro-leum, starch ethers, methylcellulose gum by proportioning and obtain mixed solution, then above-mentioned mixed solution is evenly mixed in water glass, again the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is evenly poured into, batch mixing 50 minutes;

(2) compression molding, be placed in mould by mixed material and shakeout, press compression moulding, compression ratio is 1: 2.5, and after the demoulding, green compact are placed on underframe and prepare solidification;

(3) solidify, heat-treated by green compact, obtain Building Fire Protection lagging material through solidification, solidification value is 230 DEG C, and set time is 4h.

Embodiment 3

A kind of Building Fire Protection lagging material, the raw material comprising following weight part is prepared from:

70 parts, the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite;

Dimethyl propylene phosphoric acid salt 10 parts;

Poly-silicon borine 8 parts;

6 parts, magnesium oxide;

Water glass 100 parts;

Ceramic fiber 10 parts;

Sulfonated petro-leum 5 parts;

Starch ethers 7 parts;

Methylcellulose gum 5 parts.

In the mixture of vitreous hollow beads of the present invention and hydrophobic type closed-cell expanded perlite, the weight ratio of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is 3:2.

Prepared by employing following steps:

(1) mixing material, first evenly become matrix fine powder to be dissolved in water dimethyl propylene phosphoric acid salt, poly-silicon borine, magnesium oxide, ceramic fiber, sulfonated petro-leum, starch ethers, methylcellulose gum by proportioning and obtain mixed solution, then above-mentioned mixed solution is evenly mixed in water glass, again the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is evenly poured into, batch mixing 40 minutes;

(2) compression molding, be placed in mould by mixed material and shakeout, press compression moulding, compression ratio is 1: 2, and after the demoulding, green compact are placed on underframe and prepare solidification;

(3) solidify, heat-treated by green compact, obtain Building Fire Protection lagging material through solidification, solidification value is 225 DEG C, and set time is 3h.

Embodiment 4

A kind of Building Fire Protection lagging material, the raw material comprising following weight part is prepared from:

70 parts, the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite;

Dimethyl propylene phosphoric acid salt 12 parts;

Poly-silicon borine 8 parts;

7 parts, magnesium oxide;

Water glass 100 parts;

Ceramic fiber 10 parts;

Sulfonated petro-leum 5 parts;

Starch ethers 7 parts;

Methylcellulose gum 5 parts.

In the mixture of vitreous hollow beads of the present invention and hydrophobic type closed-cell expanded perlite, the weight ratio of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is 3:2.

Prepared by employing following steps:

(1) mixing material, first evenly become matrix fine powder to be dissolved in water dimethyl propylene phosphoric acid salt, poly-silicon borine, magnesium oxide, ceramic fiber, sulfonated petro-leum, starch ethers, methylcellulose gum by proportioning and obtain mixed solution, then above-mentioned mixed solution is evenly mixed in water glass, again the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is evenly poured into, batch mixing 40 minutes;

(2) compression molding, be placed in mould by mixed material and shakeout, press compression moulding, compression ratio is 1: 2.5, and after the demoulding, green compact are placed on underframe and prepare solidification;

(3) solidify, heat-treated by green compact, obtain Building Fire Protection lagging material through solidification, solidification value is 230 DEG C, and set time is 4h.

Embodiment 5

A kind of Building Fire Protection lagging material, the raw material comprising following weight part is prepared from:

75 parts, the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite;

Dimethyl propylene phosphoric acid salt 8 parts;

Poly-silicon borine 15 parts;

5 parts, magnesium oxide;

Water glass 105 parts;

Ceramic fiber 7 parts;

Sulfonated petro-leum 7 parts;

Starch ethers 8 parts;

Methylcellulose gum 4 parts.

In the mixture of vitreous hollow beads of the present invention and hydrophobic type closed-cell expanded perlite, the weight ratio of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is 3:2.

Prepared by employing following steps:

(1) mixing material, first evenly become matrix fine powder to be dissolved in water dimethyl propylene phosphoric acid salt, poly-silicon borine, magnesium oxide, ceramic fiber, sulfonated petro-leum, starch ethers, methylcellulose gum by proportioning and obtain mixed solution, then above-mentioned mixed solution is evenly mixed in water glass, again the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is evenly poured into, batch mixing 30-50 minute;

(2) compression molding, be placed in mould by mixed material and shakeout, press compression moulding, compression ratio is 1: 2, and after the demoulding, green compact are placed on underframe and prepare solidification;

(3) solidify, heat-treated by green compact, obtain Building Fire Protection lagging material through solidification, solidification value is 225 DEG C, and set time is 2h.

More than show and describe ultimate principle of the present invention and principal character and advantage of the present invention.The technician of the industry should understand; the present invention is not restricted to the described embodiments; what describe in above-described embodiment and specification sheets just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.Application claims protection domain is defined by appending claims and equivalent thereof.

Claims (4)

1. a Building Fire Protection lagging material, is characterized in that: the raw material comprising following weight part is prepared from:

Mixture 65-75 part of vitreous hollow beads and hydrophobic type closed-cell expanded perlite;

Dimethyl propylene phosphoric acid salt 8-12 part;

Poly-silicon borine 8-15 part;

Magnesium oxide 5-7 part;

Water glass 100-105 part;

Ceramic fiber 7-13 part;

Sulfonated petro-leum 3-7 part;

Starch ethers 4-8 part;

Methylcellulose gum 4-7 part.

2. a kind of Building Fire Protection lagging material according to claim 1, is characterized in that: be prepared from by the raw material of following weight part:

70 parts, the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite;

Dimethyl propylene phosphoric acid salt 10 parts;

Poly-silicon borine 8 parts;

6 parts, magnesium oxide;

Water glass 100 parts;

Ceramic fiber 10 parts;

Sulfonated petro-leum 5 parts;

Starch ethers 7 parts;

Methylcellulose gum 5 parts.

3. a kind of Building Fire Protection lagging material according to claim 1 and 2, is characterized in that: in described vitreous hollow beads and the mixture of hydrophobic type closed-cell expanded perlite, the weight ratio of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is 3:2.

4. a kind of Building Fire Protection lagging material according to claim 3, is characterized in that: adopt following steps preparation:

(1) mixing material, first evenly become matrix fine powder to be dissolved in water dimethyl propylene phosphoric acid salt, poly-silicon borine, magnesium oxide, ceramic fiber, sulfonated petro-leum, starch ethers, methylcellulose gum by proportioning and obtain mixed solution, then above-mentioned mixed solution is evenly mixed in water glass, again the mixture of vitreous hollow beads and hydrophobic type closed-cell expanded perlite is evenly poured into, batch mixing 30-50 minute;

(2) compression molding, be placed in mould by mixed material and shakeout, press compression moulding, compression ratio is 1: 2 ~ 1: 2.5, and after the demoulding, green compact are placed on underframe and prepare solidification;

(3) solidify, heat-treated by green compact, obtain Building Fire Protection lagging material through solidification, solidification value is 225 ~ 230 DEG C, and set time is 2 ~ 4h.