CN107857839A - A kind of flame resistant glass film for the polymerization that is separated based on PN MAM and inorganic matrix and its preparation method and application - Google Patents

Abstract

The present invention discloses a kind of flame resistant glass film for the polymerization that is separated based on PN MAM and inorganic matrix and its preparation method and application, the preparation method is specially by the N NMA N MAM of 30~60 parts by weight and saturated aqueous solution, 40~70 parts by weight and the pH of N, N ' methylene diacrylamide MBAA mixtures>9 inorganic matrix saturated aqueous solution is sufficiently mixed, the mass fraction for adding 0.2~1.5 parts by weight into mixed liquor again is 10% initiator, after stirring, by salivating shaping or mould molding, polymerization obtains PN MAM and the flame resistant glass film of inorganic matrix phase separation polymerization, and described inorganic matrix is made up of any one in waterglass and aluminium salt or two kinds by any proportioning.The flame resistant glass film of the present invention is under the high temperature sintering of fire, refractory material coating can be formed, and the coating is turned into inorganic fire skeleton, mechanical strength, fire resistance and the effect of heat insulation of fireprotection layer are improved, and mechanical integrity and insulating refractory can be kept in a fire.

Description

A kind of the flame resistant glass film and its system of the polymerization that is separated based on PN-MAM and inorganic matrix Preparation Method and application

Technical field

The present invention relates to fire proofing material manufacturing field, and in particular to one kind is separated based on PN-MAM and inorganic matrix to be polymerize Flame resistant glass film and its preparation method and application.

Background technology

One kind of flame resistant glass category safety glass, it is that one kind can stop flame, smog, heat radiation, prevent propagation of flame, Within a certain period of time, the special glass with the transparency of integrality, stability is kept, and there should be certain shock resistance strong Degree, remains to play a protective role within a certain period of time under 1000 DEG C of flame baking.Flame resistant glass is now just progressively extensive Applied to construction sites such as large public building cut-off, fire compartment, outdoor curtain walls, flame resistant glass with transparent for characteristic, it is maximum Meet to limit Building Fire Protection and the harmony of the aesthetics of architecture.

By structure point, flame resistant glass includes two categories below：Single-sheet fire-resistant glass and composite fireproof glass.Single-sheet fire-resistant glass The shortcomings that be that can only obstruct flame, it is but not heat-insulated, and antidetonation, shock resistance are poor.Composite fireproof glass includes using sandwich method The A class doubling method compound heat-insulation types and A classes prepared with grouting method does not send out pouring type flame resistant glass black.Sandwich method is prepared compound anti- Flint glass is although heat-insulated, antidetonation, shock resistance, but fire resistance is generally poor；And pouring type flame resistant glass prepared by grouting method, although It has preferable fire integrity and preferable effect of heat insulation, but due to containing substantial amounts of moisture in its grouting so that fire prevention The thickness of glass is big, and weight is big, and which has limited its installation cost and use range.Meanwhile due to being to customize during processing Double glazing box in perfusion as formed gel layer after fire-resistant fluid, this causes the processed complex of filling type flame resistant glass, and And the compound glass after sizing the shortcomings of can not arbitrarily cutting.

The content of the invention

In view of the shortcomings of the prior art, the present invention proposes a kind of fire prevention for the polymerization that is separated based on PN-MAM and inorganic matrix Glass-film and its preparation method and application, the flame resistant glass film can be by after any cut, and doubling becomes between two blocks of glass Compound flame resistant glass.Such a flame resistant glass is manufactured simple, and weight is small, area is big, variable properties, processing installation and transports It is convenient.Concrete technical scheme is as follows：

A kind of preparation method for the flame resistant glass film polymerizeing that is separated based on PN-MAM and inorganic matrix, it is characterised in that This method is specific as follows：By the N hydroxymethyl acrylamide N-MAM and N, N ' of 30~60 parts by weight-methylene diacrylamide MBAA The saturated aqueous solution of mixture, 40~70 parts by weight and pH>9 inorganic matrix saturated aqueous solution is sufficiently mixed, then to mixed liquor It is middle add 0.2~1.5 parts by weight mass fraction be 10% initiator, after stirring, by salivate shaping or mould into Type, polymerization obtain PN-MAM and the flame resistant glass film of inorganic matrix phase separation polymerization；

Described inorganic matrix is made up of any one in waterglass and aluminium salt or two kinds by any proportioning.

Further, described inorganic matrix also includes sodium chloride, and the content of described sodium chloride is no more than inorganic matrix The 15% of gross weight.

Further, described aluminium salt is aluminium chloride or aluminum sulfate or alum or water miscible meta-aluminate.

Further, described waterglass is sodium silicate or KP1.

Further, described initiator is hydrogen peroxide, potassium peroxydisulfate or ammonium persulfate.

The flame resistant glass film that a kind of preparation method by above-mentioned any one obtains.

A kind of flame resistant glass made of above-mentioned flame resistant glass film, it is by upper and lower layer glass and doubling upper and lower two Flame resistant glass film composition between layer glass.

Compared with prior art, beneficial effects of the present invention are as follows：

After the flame resistant glass film polymerizeing that is separated based on PN-MAM and inorganic matrix of the present invention can arbitrarily be cut, doubling arrives Between two blocks of glass, compound flame resistant glass is become, preparation technology is simple, and obtained flame resistant glass weight is small, area is big, property Matter is variable, processing installation and transport are all very convenient.Under the high temperature sintering of fire, inorganic constituents is alkaline, is wrapped in compound The moisture content vaporization buried so that macromolecule resin foaming turns into foamed resin.Meanwhile the inorganic substrate of doping is covered in foamed resin Foam wall on, formed inorganic substrate covering flame-retardant layer.Meanwhile in the presence of high temperature of fire, inorganic substrate further by Sintering and crosslinking condensation are the refractory material coating of inorganic porous property structure, and the coating is turned into inorganic fire skeleton, Mechanical strength, fire resistance and the effect of heat insulation of fireprotection layer are improved, and mechanical integrity and heat-insulated resistance to can be played in a fire The effect of fire.

Embodiment

The invention is not restricted to embodiment above, in the invention scope recorded in detail in the claims, can be planted The change of kind, these changes are also contained in the scope of the present invention certainly, and this is self-evident.

Embodiment 1

The first step, by sodium metaaluminate deionized water dissolving, and with sodium hydrate regulator solution pH to 9.0, make meta-aluminic acid It is completely dissolved sodium, by solution heating evaporation to nearly saturation, is cooled to room temperature, stands, and filtering, takes filtrate to satisfy as inorganic matrix It is standby with solution A；

Second step, by the N hydroxymethyl acrylamide of 92 parts by weight and the N of 8 parts by weight, N '-methylene diacrylamide mixing Thing saturated aqueous solution mixing, under agitation plus pure water to being just completely dissolved, filtered after standing saturated solution B is standby.

3rd step, hydrogen peroxide is made into pure water to 10% aqueous solution, it is standby to obtain initiator solution C.

4th step, the B solution of the solution A of 40 parts by weight and 60 parts by weight is sufficiently mixed, the C for adding 0.2 parts by weight is molten Liquid, after stirring, by mould molding, aggregate into PN-MAM and the flame resistant glass film of inorganic matrix phase separation polymerization.

Embodiment 2

The first step, by the alum deionized water dissolving of 70 parts by weight, and with sodium hydrate regulator solution pH extremely 11.0, it is completely dissolved alum, then add the waterglass of 25 parts by weight, the sodium chloride of 5 parts by weight, heating stirring in solution It is completely dissolved, by solution heating evaporation to saturation, is cooled to room temperature, is stood, filtering, takes filtrate as inorganic matrix saturation Solution A is standby；

Second step, by the N hydroxymethyl acrylamide of 98 parts by weight and the N of 2 parts by weight, N '-methylene diacrylamide mixing Thing saturated aqueous solution mixing, under agitation plus pure water to being just completely dissolved, filtered after standing saturated solution B is standby.

3rd step, potassium peroxydisulfate is made into the aqueous solution of mass fraction 10% with pure water, filter initiator solution C is standby With.

4th step, the B solution of the solution A of 70 parts by weight and 30 parts by weight is sufficiently mixed, the C for adding 0.8 parts by weight is molten Liquid, after stirring, it is molded by salivating, aggregates into PN-MAM and the flame resistant glass film of inorganic matrix phase separation polymerization.

Embodiment 3

The first step, by the aluminium chloride deionized water dissolving of 40 parts by weight, and with sodium hydrate regulator solution pH to 10.0, Making aluminium chloride, it is completely dissolved, and adds waterglass, the sodium chloride of 15 parts by weight of 45 parts by weight in the solution, and heating stirring makes it It is completely dissolved, by solution heating evaporation to saturation, is cooled to room temperature, stand, filtering, takes filtrate as inorganic matrix saturated solution A is standby；

Second step, by the N hydroxymethyl acrylamide of 97 parts by weight and the N of 3 parts by weight, N '-methylene diacrylamide mixing Thing saturated aqueous solution mixing, under agitation plus pure water to being just completely dissolved, filtered after standing saturated solution B is standby.

3rd step, ammonium persulfate is made into the aqueous solution of quality maple 10% with pure water, filter initiator solution C is standby With.

4th step, the B solution of the solution A of 45 parts by weight and 55 parts by weight is sufficiently mixed, the C for adding 1.5 parts by weight is molten Liquid, after stirring, by mould molding, aggregate into PN-MAM and the flame resistant glass film of inorganic matrix phase separation polymerization.

Embodiment 4

The first step, by the sodium metaaluminate deionized water dissolving of 20 parts by weight, and with sodium hydrate regulator solution pH extremely 10.5, making sodium metaaluminate, it is completely dissolved, and adds waterglass, the sodium chloride of 10 parts by weight of 70 parts by weight in the solution, heating Stirring is completely dissolved it, by solution heating evaporation to saturation, is cooled to room temperature, stands, and filtering, takes filtrate as inorganic matrix Saturated solution A is standby；

Second step, by the N hydroxymethyl acrylamide of 96 parts by weight and the N of 4 parts by weight, N '-methylene diacrylamide mixing Thing saturated aqueous solution mixing, under agitation plus pure water to being just completely dissolved, filtered after standing saturated solution B is standby.

3rd step, potassium peroxydisulfate is made into the aqueous solution of mass fraction 10% with pure water, filter initiator solution C is standby With.

4th step, the B solution of the solution A of 50 parts by weight and 50 parts by weight is sufficiently mixed, the C for adding 0.5 parts by weight is molten Liquid, continue after stirring, be molded by salivating, aggregate into PN-MAM and the flame resistant glass film of inorganic matrix phase separation polymerization.

Embodiment 5

The first step, by waterglass deionized water dissolving, and with sodium hydrate regulator solution pH to 10.0, make waterglass its It is completely dissolved, by solution heating evaporation to nearly saturation, is cooled to room temperature, stand, filtering, takes filtrate molten as inorganic substrate saturation Liquid A is standby；

Second step, by the N hydroxymethyl acrylamide of 95 parts by weight and the N of 5 parts by weight, N '-methylene diacrylamide mixing Thing saturated aqueous solution mixing, under agitation plus pure water to being just completely dissolved, filtered after standing saturated solution B is standby.

3rd step, hydrogen peroxide is made into the aqueous solution of mass fraction 10% with pure water, filter initiator solution C is standby With.

4th step, the B solution of the solution A of 55 parts by weight and 45 parts by weight is sufficiently mixed, the C for adding 1.2 parts by weight is molten Liquid, after stirring, by mould molding, aggregate into PN-MAM and the flame resistant glass film of inorganic matrix phase separation polymerization.

Embodiment 6

The first step, by the aluminum sulfate deionized water dissolving of 50 parts by weight, and with sodium hydrate regulator solution pH to 10.0, Aluminum sulfate is completely dissolved, adds the waterglass of 50 parts by weight in the solution, heating stirring is completely dissolved it, and solution is heated Saturation is evaporated to, is cooled to room temperature, is stood, filtering, takes filtrate standby as inorganic matrix saturated solution A；

Second step, by the N hydroxymethyl acrylamide of 94 parts by weight and the N of 6 parts by weight, N '-methylene diacrylamide mixing Thing saturated aqueous solution mixing, under agitation plus pure water to being just completely dissolved, filtered after standing saturated solution B is standby.

3rd step, ammonium persulfate is made into the aqueous solution of mass fraction 10% with pure water, filter initiator solution C is standby With.

4th step, the B solution of the solution A of 60 parts by weight and 40 parts by weight is sufficiently mixed, the C for adding 1.0 parts by weight is molten Liquid, after stirring, it is molded by salivating, aggregates into PN-MAM and the flame resistant glass film of inorganic matrix phase separation polymerization.

The fire prevention film that thickness is 5mm is made in above-described embodiment 1-6, is respectively commonly floated with 5mm is thick inside and outside fire prevention film Method glass, doubling is vacuumized under conditions of 80 DEG C experiment flame resistant glass is made.Prevent according to A classes in GB15763.1-2001 Flint glass standard is tested.1100 DEG C of the light transmittance and side towards the fire of obtained embodiment 1-6 flame resistant glass, unexposed surface temperature ≤ 140 DEG C of fire resistance period (min) is as shown in table 1.

1100 DEG C of the light transmittance and side towards the fire of the embodiment 1-6 of table 1 flame resistant glass, the fire resisting of unexposed surface temperature≤140 DEG C Time (min) list

As can be seen from the table, added light transmittance and the fire resistance period of the flame resistant glass of flame resistant glass film preferable, simultaneously Have small weight, simple production process concurrently, can cut, be readily transported the advantages that installation etc..

Embodiment described above, the simply present invention more preferably one kind in embodiment, the technology of this area The usual variations and alternatives that personnel are carried out in the range of technical solution of the present invention should all include within the scope of the present invention.

Claims (7)

1. a kind of preparation method for the flame resistant glass film polymerizeing that is separated based on PN-MAM and inorganic matrix, it is characterised in that should Method is specific as follows：By the N hydroxymethyl acrylamide (N-MAM) and N, N '-methylene diacrylamide of 30~60 parts by weight (MBAA) saturated aqueous solution of mixture, 40~70 parts by weight and pH>9 inorganic matrix saturated aqueous solution is sufficiently mixed, then to In mixed liquor add 0.2~1.5 parts by weight mass fraction be 10% initiator, after stirring, by salivate shaping or Mould molding, polymerization obtain PN-MAM and the flame resistant glass film of inorganic matrix phase separation polymerization；

Described inorganic matrix is made up of any one in waterglass and aluminium salt or two kinds by any proportioning.

2. the flame resistant glass film of the polymerization according to claim 1 that is separated based on PN-MAM and inorganic matrix, described nothing Machine matrix also includes sodium chloride, and the content of described sodium chloride is no more than the 15% of inorganic matrix gross weight.

3. the preparation side of the flame resistant glass film according to claim 1 that polymerize that is separated based on PN-MAM and inorganic matrix Method, described aluminium salt are aluminium chloride or aluminum sulfate or alum or water miscible meta-aluminate.

4. the preparation side of the flame resistant glass film according to claim 1 that polymerize that is separated based on PN-MAM and inorganic matrix Method, described waterglass are sodium silicate or KP1.

5. the preparation side of the flame resistant glass film according to claim 1 that polymerize that is separated based on PN-MAM and inorganic matrix Method, described initiator are hydrogen peroxide, potassium peroxydisulfate or ammonium persulfate.

A kind of 6. flame resistant glass film that preparation method by above-mentioned any one claim obtains.

A kind of 7. flame resistant glass made of the flame resistant glass film of claim 6, it is characterised in that its by upper and lower layer glass with And flame resistant glass film composition of the doubling between upper and lower layer glass.