CN106522396A - High-temperature resisting fireproof plate - Google Patents

Abstract

The invention discloses a high-temperature resisting fireproof plate and relates to the technical field of fireproof plates. The high-temperature resisting fireproof plate comprises a gypsum board base body and metal foil embedded in the gypsum board base body. The thickness of the metal foil is 0.05-0.15 mm. A plurality of meshes are formed in the metal foil. The density of the meshes in the metal foil is 2-13/cm<2>. The fireproof plate provided by the invention has excellent fireproof performance.

Description

A kind of high temperature resistant type PLASTIC LAMINATED

Technical field

The present invention relates to fire-proof board technical field, more particularly to a kind of high temperature resistant type PLASTIC LAMINATED.

Background technology

It is in current building decorating industry, more and more stricter to the performance requirement of ornament materials, the fire prevention especially to material Property, moisture resistance, heat insulating ability etc. require more and more higher.Because these performances are directly connected to the safe handling of building, to protection Property and personal safety suffer from significance.It is most widely used at present to have plastering and asbestos friction material, this different materials It is respectively provided with good fireproof heat insulating performance.But, due to pollution of the asbestos friction material to environment, its use range is less and less, most Severely limited at last, plastering has easy-formation, and low cost and other advantages, its application receive increasing concern.

A kind of plasterboard material made by with plaster of Paris as primary raw material.At present in building decoration and fitment, plasterboard So that its lightweight, intensity is higher, thinner thickness, easy to process, preferable sound insulation it is adiabatic with the advantages of fire protecting performance into attaching most importance to A kind of novel light construction material of development.Plasterboard is widely used in house, office building, shop, hotel and industrial premises etc. The internal partition wall of various buildings, body of wall cladding boards (replacement floated coat), ceiling, abatvoix, ground layer plate and various Decorative panel etc., so its various performance has close relationship for people's production and life.People are threaten always in fire Life and property safety today's society, people are extremely closed always how to produce the more preferable plasterboard material of fire protecting performance The problem of the heart.Fire protecting performance is disclosed in CN1443146 and obtains improved plasterboard compositionss, what which included 55-92% can water Close calcium sulfate, the mineral and/or fire proofing firbre of 0.1-5%, 3-25% mineral additive (can be Kaolin, illite, Quartz, dolomite etc.), the unexpansive Vermiculitum of 1-5%, and the hydrated alumina of 3-15%.In CN1443263, it is in Gypsum Fibrosum Be coated with the surface of central layer apply selected from hydrated alumina, Calcium Carbonate, Kaolin, clay and its mixture mineral filler and The adhesive coated fiberglass batts of organic or inorganic, to improve the fire protecting performance of plasterboard.But existing various plasterboards Fire protecting performance it is still poor.

The content of the invention

Present invention solves the technical problem that be the problem for plasterboard fire protecting performance of the prior art difference, so as to provide A kind of high temperature resistant type PLASTIC LAMINATED.

The invention discloses a kind of high temperature resistant type PLASTIC LAMINATED, including plasterboard matrix and it is embedded at the plasterboard matrix Internal tinsel；The thickness of the tinsel is 0.05-0.15mm, and multiple mesh are offered on the tinsel； On the tinsel, the density of mesh is 2-13/cm2；The tinsel is aluminium alloy or Stainless Steel；The metal Paillon foil includes multiple the first base materials be arrangeding in parallel and multiple the second base materials be arrangeding in parallel, the first base material and the second base material It is intersecting.

Preferably, the angle of the first base material and the second base material is 30 ° -60 °.

Preferably, the mesh be circle, rectangle, rhombus, pentagon, one or more in hexagon.

Beneficial effects of the present invention：High refractory temperature, fire protecting performance are excellent.

Description of the drawings

Fig. 1 is the partial sectional view of the high temperature resistant type PLASTIC LAMINATED that the present invention is provided；

Fig. 2 be in Fig. 1 A-A to sectional view；

Fig. 3 is view of the tinsel before drawing and forming in the high temperature resistant type PLASTIC LAMINATED that the present invention is provided；

During Fig. 4 is the high temperature resistant type PLASTIC LAMINATED that the present invention is provided, the structural representation of tinsel；

During Fig. 5 is the high temperature resistant type PLASTIC LAMINATED that the present invention is provided, the structural representation of tinsel；

During Fig. 6 is the high temperature resistant type PLASTIC LAMINATED that the present invention is provided, the structural representation of tinsel.

Wherein, 1, plasterboard matrix；2nd, tinsel；20th, mesh；21st, metal precursor；22nd, joint-cutting；23rd, the first base Material；24th, the second base material.

Specific embodiment

Below the preferred embodiments of the present invention are described in detail so that advantages and features of the invention can be easier to by It will be appreciated by those skilled in the art that apparent clearly defining so as to make to protection scope of the present invention.

In describing the invention, it is to be understood that term " multiple " is meant that two or more.

The high temperature resistant type PLASTIC LAMINATED that the present invention is provided, including plasterboard matrix and it is embedded at the plasterboard intrinsic silicon Tinsel；The thickness of the tinsel is 0.05-0.15mm, and multiple mesh are offered on the tinsel；It is described On tinsel, the density of mesh is 2-13/cm2.

In above-mentioned high temperature resistant type PLASTIC LAMINATED, plasterboard matrix is main part, the embedded plasterboard matrix of the tinsel Inside, plays fireproofing function by the collective effect of plasterboard matrix and tinsel.

In the present invention, plasterboard matrix is not particularly limited, the Gypsum Fibrosum that existing various methods can be adopted to prepare Plate matrix.The composition of plasterboard matrix can also adopt existing various.For example, the plasterboard matrix that the present invention is provided includes The starch of 0.4-1.2wt%, the glass fibre of 0.2-1.0wt%, the foaming agent of 0.04-0.15wt%, the Vermiculitum of 3-8wt%, With the bentonite of 1-4wt%, and the Gypsum Fibrosum of surplus.The preferably starch of 0.4-0.7wt%, the glass fibers of 0.3-0.6wt% Dimension, the foaming agent of 0.04-0.15wt%, the Vermiculitum of 5-7wt%, and the bentonite of 2-3wt%, and the Gypsum Fibrosum of surplus.

Described glass fibre can be that this area is conventional or known glass fibre, can be middle alkali, alkali-free or neutrality Glass fibre.The filament diameter of the glass fibre is preferably 10-15 microns.The foaming agent is that this area is conventional or The foaming agent known, such as 12 alkyl sodium sulfate foaming agent.The Vermiculitum is that this area is conventional or known Vermiculitum.The swelling Soil is that this area is conventional or known bentonite.

According to the present invention, the embedded plasterboard intrinsic silicon of tinsel.For tinsel, its thickness is 0.05- 0.15mm.And multiple mesh are offered on tinsel, on the tinsel, the density of mesh is 2-13/cm2.Gold Category paillon foil thickness is blocked up or mesh density is excessive or too small all drops the decline for causing PLASTIC LAMINATED fire protecting performance.

For the material of above-mentioned tinsel, the preferable metal of heat conductivility commonly used in the prior art can be adopted, for example Aluminium alloy or rustless steel can be adopted.

The aluminum alloy foil material that above-mentioned tinsel is selected is commonly used in the art, for example, meet state of the People's Republic of China (PRC) The regulation of family's standard GB/T3198-2003.

For the chemical composition of the aluminium alloy, can be known in the industry using row, for example, with aluminium alloy gross mass as base Standard, Mn contents are 0.8-1.8%, and Fe contents are 0.3-0.7%, and Si contents are 0.3-0.6%, and Cu contents are 0.1- It is 0.03-0.1%, balance of Al that 0.2%, Zn content is 0.1%, Mg contents.

In the present invention, the tinsel includes multiple the first base materials be arrangeding in parallel and multiple the second bases be arrangeding in parallel Material, the first base material are intersected with the second base material.

In tinsel with said structure, the angle of the first base material and the second base material is 30 ° -60 °.

According to the present invention, the grid on the tinsel is circle, rectangle, rhombus, pentagon, the one kind in hexagon Or it is various.

For the first base material and the second base material, strip or lamellar can be adopted.

Meanwhile, present invention also offers the preparation method of above-mentioned high temperature resistant type PLASTIC LAMINATED, including：

S1, place gypsum slurry and tinsel in the mould, make gypsum slurry flood the tinsel；

The thickness of the tinsel is 0.05-0.15mm, and multiple mesh are offered on the tinsel；The tinsel On, the density of mesh is 2-13/cm2；

S2, the gypsum slurry in mould and tinsel are dried compressing, obtain the PLASTIC LAMINATED.

Wherein, the gypsum slurry for adopting can be various compositions commonly used in the prior art, for example, by 0.4-1.2wt% Starch, the glass fibre of 0.2-1.0wt%, the foaming agent of 0.04-0.15wt%, the Vermiculitum of 3-8wt%, and 1-4wt% Bentonite, and the Gypsum Fibrosum of surplus mixed with water.It is preferred that using the starch of 0.4-0.7wt%, the glass fibers of 0.3-0.6wt% Dimension, the foaming agent of 0.04-0.15wt%, the Vermiculitum of 5-7wt%, and the bentonite of 2-3wt%, and the Gypsum Fibrosum of surplus are mixed with water Close.

As it was previously stated, above-mentioned glass fibre can be that this area is conventional or known glass fibre, can be middle alkali, nothing The glass fibre of alkali or neutrality.The filament diameter of the glass fibre is preferably 10-15 microns.The foaming agent is this area Conventional or known foaming agent, such as 12 alkyl sodium sulfate foaming agent.The Vermiculitum is that this area is conventional or known Vermiculitum. The bentonite is that this area is conventional or known bentonite.

In above-mentioned blend step, described raw material can be added with random order.Described is blended in water as solvent Carry out in system.Described mixing can this area is conventional or known equipment in carry out.

Above-mentioned tinsel by forming above-mentioned mesh using various methods on metal precursor for example, in thickness can be Cut on the metal precursor of 0.05-0.15mm, formed multiple joint-cuttings being parallel to each other；Then the metal precursor is stretched, The mesh is formed at the joint-cutting, the tinsel is obtained.

Specifically, can adopt a rectangle, thickness for 0.05-0.15mm metal precursor.Cut out on metal precursor many The individual joint-cutting being separated from each other.On joint-cutting bearing of trend, multiple joint-cuttings are conllinear；On the direction of joint-cutting, multiple joint-cuttings It is parallel to each other.

Under preferable case, on the direction of joint-cutting, two adjacent joint-cuttings offset one from another, i.e. a joint-cutting End is located in the length range that the joint-cutting being adjacent is located.The interlaced arrangement of grid being consequently formed.

Generally, the length of joint-cutting is 10-15mm, and the spacing between adjacent joint-cutting is 1-6mm.For above-mentioned each parameter, this Art personnel can carry out reasonable selection within the above range according to practical situation.

Then the metal precursor formed after joint-cutting is stretched into (such as along the direction stretching perpendicular to joint-cutting) Form the tinsel.The position that joint-cutting is located on script metal precursor forms mesh.

Under preferable case, be adjusted by the length and spacing to above-mentioned joint-cutting, so as to get tinsel include it is many The individual the first base material be arrangeding in parallel and multiple the second base materials be arrangeding in parallel, the first base material are intersected with the second base material；It is described The angle of the first base material and the second base material is 30 ° -60 °.Equally, above-mentioned tinsel can be also formed by other means, for example, Default mesh is directly gone out on metal precursor using perforating press.

According to the present invention, above-mentioned tinsel is preferably aluminium alloy or Stainless Steel.Various shapes are obtained by said method The mesh of shape, for example, the mesh be circle, rectangle, rhombus, pentagon, one or more in hexagon.

In the present invention, above-mentioned gypsum slurry and above-mentioned tinsel need to be placed in mould, and makes gypsum slurry The tinsel is flooded, so that, in the PLASTIC LAMINATED for preparing, tinsel is embedded in plasterboard matrix.

Then will be the gypsum slurry in mould and tinsel drying compressing, obtain the PLASTIC LAMINATED.

The method of above-mentioned drying and compacting is the conventional method of plasterboard preparation field, for example, can do at 110-130 DEG C It is dry.It is compressing on extrusion molding platform.

By the following examples the present invention is further detailed.

In each following embodiment of the present invention, gypsum slurry is adopted and is obtained with composition with the following method：

100 parts of Gypsum Fibrosum preparata, 0.6 part of starch, 0.2 part of glass fibre (length 9-15mm, filament diameter 10- are added in water 15 microns), 0.06 part of foaming agent (low solidifying foaming agent), 4 parts of Vermiculitums, and 2 parts of bentonite, mix homogeneously obtain calcium plaster Material.

Embodiment 1

The present embodiment is used to illustrate PLASTIC LAMINATED disclosed by the invention and preparation method thereof.

As shown in Fig. 3, adopt a rectangle, thickness for 0.1mm aluminium alloy as metal precursor 21.In metal precursor Multiple joint-cuttings 22 being separated from each other are cut out on 21.On 22 bearing of trend of joint-cutting, multiple joint-cuttings 22 are conllinear；Perpendicular to cutting On the direction of seam 22, multiple joint-cuttings 22 are parallel to each other.On the direction of joint-cutting 22, adjacent two joint-cuttings 22 that This staggers.Also, the length of joint-cutting 22 is 10mm, and the spacing between adjacent joint-cutting 22 is 2mm.

Then the metal precursor 21 after joint-cutting 22 will be formed to stretch along the direction perpendicular to joint-cutting 22, metal forming is obtained Piece 2.

Referring to Fig. 4, the mesh 20 of rectangle on tinsel 2, is formed with, wherein, the density of mesh 20 is 3/cm2.

Then above-mentioned tinsel and gypsum slurry are positioned in mould, make gypsum slurry flood the metal forming Piece.Then, at 120 DEG C, on extrusion molding platform, drying is compressing, obtains PLASTIC LAMINATED.

Wherein, as shown in Fig. 1 and Fig. 2, tinsel 2 is embedded at plasterboard matrix 1 to the structure of high temperature resistant type PLASTIC LAMINATED It is interior；Adopt flame temperature and above-mentioned high temperature resistant type PLASTIC LAMINATED is sprayed for 900 DEG C of spray gun.After injection 2h, PLASTIC LAMINATED is not yet Burnt.

Embodiment 2

The present embodiment is used to illustrate high temperature resistant type PLASTIC LAMINATED disclosed by the invention and preparation method thereof.

Adopt a rectangle, thickness for 0.1mm aluminium alloy as metal precursor.Multiple phases are cut out on metal precursor Mutual detached joint-cutting.On joint-cutting bearing of trend, multiple joint-cuttings are conllinear；On the direction of joint-cutting, multiple joint-cuttings are mutual It is parallel.On the direction of joint-cutting, two adjacent joint-cuttings offset one from another.Also, the length of joint-cutting is 15mm, adjacent to cut Spacing between seam is 5mm.

Then the metal precursor formed after joint-cutting is stretched, is formed tinsel, the net of rhombus is formed at joint-cutting Hole, obtains tinsel.

Referring to Fig. 5, now tinsel include multiple the first base materials 23 be arrangeding in parallel and it is multiple be arranged in parallel second Base material 24.The first base material 23 and the second base material 24 are crossed to form multiple networks.24 phase of the first base material 23 and the second base material The angle of friendship is 45 °.Wherein, on tinsel, the density of mesh 20 is 2/cm2.

Then above-mentioned tinsel and gypsum slurry are positioned in mould, make gypsum slurry flood the metal forming Piece.Then, at 130 DEG C, on extrusion molding platform, drying is compressing, obtains PLASTIC LAMINATED.

Adopt flame temperature and above-mentioned high temperature resistant type PLASTIC LAMINATED is sprayed for 900 DEG C of spray gun.After injection 2h, fire prevention Plate is burnt not yet.

Embodiment 3

The present embodiment is used to illustrate high temperature resistant type PLASTIC LAMINATED disclosed by the invention and preparation method thereof.

Adopt a rectangle, thickness for 0.05mm aluminium alloy as metal precursor.Multiple phases are cut out on metal precursor Mutual detached joint-cutting.On joint-cutting bearing of trend, multiple joint-cuttings are conllinear；On the direction of joint-cutting, multiple joint-cuttings are mutual It is parallel.On the direction of joint-cutting, two adjacent joint-cuttings offset one from another.Also, the length of joint-cutting is 12mm, adjacent to cut Spacing between seam is 4mm.

Then the metal precursor after joint-cutting will be formed along stretching perpendicular to the direction of joint-cutting, tinsel is formed, in joint-cutting Place forms the mesh of hexagon, obtains tinsel.

Referring to Fig. 6, wherein, on tinsel 2, the density of hexagonal meshes 20 is 2/cm2.

Then above-mentioned tinsel and gypsum slurry are positioned in mould, make gypsum slurry flood the metal forming Piece.Then, at 120 DEG C, on extrusion molding platform, drying is compressing, obtains PLASTIC LAMINATED.

Adopt flame temperature and above-mentioned high temperature resistant type PLASTIC LAMINATED is sprayed for 900 DEG C of spray gun.After injection 2h, fire prevention Plate is burnt not yet.

Embodiment 4

The present embodiment is used to illustrate high temperature resistant type PLASTIC LAMINATED disclosed by the invention and preparation method thereof.

Adopt a rectangle, thickness for 0.15mm rustless steel as metal precursor.Multiple phases are cut out on metal precursor Mutual detached joint-cutting.On joint-cutting bearing of trend, multiple joint-cuttings are conllinear；On the direction of joint-cutting, multiple joint-cuttings are mutual It is parallel.On the direction of joint-cutting, two adjacent joint-cuttings offset one from another.Also, the length of joint-cutting is 14mm, adjacent to cut Spacing between seam is 1mm.

Then the metal precursor after joint-cutting will be formed along stretching perpendicular to the direction of joint-cutting, tinsel is formed, wherein, gold On category paillon foil, the density of mesh is 8/cm2.

Then above-mentioned tinsel and gypsum slurry are positioned in mould, make gypsum slurry flood the metal forming Piece.Then, at 110 DEG C, on extrusion molding platform, drying is compressing, obtains PLASTIC LAMINATED.

Adopt flame temperature and above-mentioned high temperature resistant type PLASTIC LAMINATED is sprayed for 900 DEG C of spray gun.After injection 2h, fire prevention Plate is burnt not yet.

Comparative example 1

This comparative example is used for comparative illustration high temperature resistant type PLASTIC LAMINATED disclosed by the invention and preparation method thereof.

Plasterboard is prepared by the method for embodiment 1 using gypsum slurry directly.Without above-mentioned metal forming in plasterboard Piece.

Adopt flame temperature and above-mentioned plasterboard is sprayed for 800 DEG C of spray gun.Injection is burnt less than 1h plasterboards Wear.

Comparative example 2

This comparative example is used for comparative illustration high temperature resistant type PLASTIC LAMINATED disclosed by the invention and preparation method thereof.

PLASTIC LAMINATED is prepared by the method for embodiment 1 using metal precursor of the surface without mesh.

Adopt flame temperature and above-mentioned high temperature resistant type PLASTIC LAMINATED is sprayed for 800 DEG C of spray gun.Injection is prevented fires less than 1h Plate is burnt.

Comparative example 3

This comparative example is used for comparative illustration PLASTIC LAMINATED disclosed by the invention and preparation method thereof.

PLASTIC LAMINATED is prepared by the method for embodiment 1, except for the difference that, the mesh density on tinsel is 50/cm2.

Adopt flame temperature and above-mentioned PLASTIC LAMINATED is sprayed for 800 DEG C of spray gun.Injection is burnt less than 1h PLASTIC LAMINATEDs Wear.

Comparative example 4

This comparative example is used for comparative illustration high temperature resistant type PLASTIC LAMINATED disclosed by the invention and preparation method thereof.

PLASTIC LAMINATED is prepared by the method for embodiment 1, except for the difference that, the thickness of tinsel is 0.5mm.

Adopt flame temperature and above-mentioned PLASTIC LAMINATED is sprayed for 800 DEG C of spray gun.Injection is burnt less than 1h PLASTIC LAMINATEDs Wear.

Comparative example 5

This comparative example is used for comparative illustration high temperature resistant type PLASTIC LAMINATED disclosed by the invention and preparation method thereof.

PLASTIC LAMINATED is prepared by the method for embodiment 1, except for the difference that, the thickness of tinsel is 0.01mm.

Adopt flame temperature and above-mentioned PLASTIC LAMINATED is sprayed for 800 DEG C of spray gun.Injection is burnt less than 1h PLASTIC LAMINATEDs Wear.

By above-described embodiment and comparative example test result, the PLASTIC LAMINATED that the present invention is provided has excellent fire line Energy.Also, blocked up or excessively thin tinsel is to causing fire protecting performance to decline to a great extent.Meanwhile, mesh density mistake on tinsel The little or excessive fire protecting performance for also leading to PLASTIC LAMINATED declines.

The above, specific embodiment only of the invention, but protection scope of the present invention is not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should be all included within the scope of the present invention.Therefore, protection of the invention The protection domain that scope should be limited by claims is defined.

Claims (5)

1. a kind of high temperature resistant type PLASTIC LAMINATED, it is characterised in that including plasterboard matrix and be embedded in the plasterboard matrix The tinsel in portion；The thickness of the tinsel is 0.05-0.15mm, and multiple mesh are offered on the tinsel；Institute State on tinsel, the density of mesh is 2-13/cm2.

2. the high temperature resistant type PLASTIC LAMINATED according to claim 1, it is characterised in that the tinsel is aluminium alloy or not Embroider steel.

3. the high temperature resistant type PLASTIC LAMINATED according to claim 1 or 2, it is characterised in that the tinsel includes multiple The first base material be arrangeding in parallel and multiple the second base materials be arrangeding in parallel, the first base material are intersected with the second base material.

4. the high temperature resistant type PLASTIC LAMINATED according to claim 3, it is characterised in that the first base material and the second base material Angle is 30 ° -60 °.

5. the high temperature resistant type PLASTIC LAMINATED according to claim 1, it is characterised in that the mesh be circle, rectangle, rhombus, One or more in pentagon, hexagon.