CN108609929A - A kind of light lath for building partition wall and its production method - Google Patents
A kind of light lath for building partition wall and its production method Download PDFInfo
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- CN108609929A CN108609929A CN201810487283.5A CN201810487283A CN108609929A CN 108609929 A CN108609929 A CN 108609929A CN 201810487283 A CN201810487283 A CN 201810487283A CN 108609929 A CN108609929 A CN 108609929A
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- furnace slag
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- 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
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04C—STRUCTURAL ELEMENTS; BUILDING MATERIALS
- E04C2/00—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
- E04C2/30—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure
-
- 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
- C04B2111/40—Porous or lightweight materials
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- Chemical & Material Sciences (AREA)
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- Ceramic Engineering (AREA)
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Abstract
The present invention relates to a kind of light lath for building partition wall and its production methods, are related to Material Field.Light lath for building partition wall includes ontology, and ontology is equipped with glass fiber mesh layer, protrusion and groove, has hole in ontology.The raw material of ontology is counted in parts by weight, including:38 parts of 440 470 parts of cement, 130 150 parts of high-titanium blast furnace slag, 50 70 parts of silicon ash, 20 30 parts of high-titanium blast furnace slag micro mist, 50 70 parts of flyash, 13 parts of sodium cellulose glycolate, 13 15 parts of aluminium powder, 330 345 parts of water, 10 30 parts of expanded perlite, 10 20 parts of redispersable latex powder and alkali-resistant glass fibre.Its High anti bending strength, production cost are low, while lightweight, and heat preservation, soundproof effect are good.The production method of above-mentioned light lath for building partition wall, it is easy to operation, effectively improve the performance of light lath for building partition wall obtained.
Description
Technical field
The present invention relates to Material Fields, and more particularly to a kind of light lath for building partition wall and its production method.
Background technology
Light lath for building partition wall is widely used in every field, such as Large Underground foundation forms, hospital's partition wall, row
Political affairs office building partition wall, KTV boxes partition wall, hotel's box partition wall, hotel room partition wall, hygienic division wall, chemicals warehouse partition wall
Equal fields.Current light lath for building partition wall is by two pieces of symmetrically arranged calcium silicate boards and between two pieces of calcium silicate boards
Batch mixing layer constitute, and use calcium silicate board made of light lath for building partition wall have the following disadvantages:Calcium silicate board weight
Weight is hygroscopic, as finished product using when two sides dry and wet is inconsistent is easily bent deformation and causes to crack;Wallboard length is long, transports, removes
Fortune, installation are inconvenient, the big disadvantage of the amount of labour used.Meanwhile existing preparation method is unable to get building partition provided by the invention
Use light lath.
Invention content
The purpose of the present invention is to provide a kind of light lath for building partition wall, High anti bending strength, production cost are low, together
When lightweight, heat preservation, soundproof effect it is good.
It is easy to operation another object of the present invention is to provide a kind of production method of light lath for building partition wall, have
Effect improves the performance of light lath for building partition wall obtained.
The present invention solves its technical problem using following technical scheme to realize.
The present invention proposes a kind of light lath for building partition wall comprising ontology, ontology include side wall and connect with side wall
The bottom wall and roof connect, bottom wall and roof are respectively equipped with glass fiber mesh layer, and side wall includes being sequentially connected annular in shape
One side wall, second sidewall, third side wall, the 4th side wall, the first side wall are equipped with protrusion, and third side wall is equipped with corresponding recessed with protrusion
Slot, ontology is interior to have hole.
The raw material of ontology is counted in parts by weight, including:
440-470 parts of cement, 130-150 parts of high-titanium blast furnace slag, 50-70 parts of silicon ash, high-titanium blast furnace slag micro mist 20-30
Part, 50-70 parts of flyash, 1-3 parts of sodium cellulose glycolate, 13-15 parts of aluminium powder, 330-345 parts of water, expanded perlite 10-30
3-8 parts of part, 10-20 parts of redispersable latex powder and alkali-resistant glass fibre.
The present invention proposes a kind of production method of above-mentioned light lath for building partition wall, the slurry obtained after raw material is mixed
Injection is equipped in the mold of glass fiber mesh layer, extrusion forming, is warming up to 35-50 DEG C of maintenance 1.5-2h.
Wherein, mold is in hollow form, and mold includes the lug boss for making the body part of ontology, for making protrusion,
And the concave part for making groove, lug boss are connected to body part, concave part is connected to body part, and concave part is equipped with and is used for
The sprue of slurry is perfused, glass fiber mesh layer is layed in the roof and bottom wall of body part respectively.
The light lath for building partition wall of the embodiment of the present invention and its advantageous effect of production method are:
By the setting of glass fiber mesh layer, the flexural capacity of light lath for building partition wall is effectively improved.Pass through protrusion
It with the cooperation of groove, is effectively assembled, installation is more convenient, lightens one's labor.
In its raw material, its stable chemical performance of high-titanium blast furnace slag, physical temperature deformation is small, while in high-titanium blast furnace slag
Portion is loose and porous structure, and conducive to absorbing, discharging the stress for generation of expanding with heat and contract with cold, while water absorption rate is 4%-6%, in concrete
Interior maintenance action can be played in process of setting.The calcium hydroxide that hydrated cementitious generates is reacted with silicon ash, generates aquation silicon
Sour calcium and drated calcium aluminate keep tissue more fine and closely woven, enhance intensity.Silicon ash and flyash are for filling building partition lightweight
Original defect in batten improves impermeability.Aluminium powder is reacted with hydrolysis product of cement, generates bubble hydrogen, building partition is made to use
It is internal after light lath solidification to form honeycomb structure, light thermal-insulation.Sodium cellulose glycolate and redispersable latex powder make
After foaming, the size of hole is uniform, and prevents from caving in and not be durable.Alkali-resistant glass fibre effectively prevent building partition lightweight item
The extension of original defect (slit) and it is effectively prevent the appearance of new slit in plate, while effectively reducing building partition lightweight
Connection gap in batten, effectively prevents external moisture, while enhancing, toughening and loss of weight etc..Expanded perlite is further
Improve the insulation fire protecting performance of light lath for building partition wall.Above-mentioned raw materials rational proportion effectively improves building partition use
The performance of light lath.
Aforementioned production method, it is easy to operation, effectively improve the performance of light lath for building partition wall obtained.
Description of the drawings
In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached
Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair
The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this
A little attached drawings obtain other relevant attached drawings.
Fig. 1 is the structural schematic diagram for the light lath for building partition wall that the embodiment of the present invention 1 and embodiment 3 provide.
Icon:10- light lath for building partition wall;100- ontologies;101- the first side walls;102- second sidewalls;103-
Three side walls;The 4th side walls of 104-;110- protrusions;120- grooves;130- glass fiber mesh layers.
Specific implementation mode
It in order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below will be in the embodiment of the present invention
Technical solution be clearly and completely described.The person that is not specified actual conditions in embodiment, builds according to normal condition or manufacturer
The condition of view carries out.Reagents or instruments used without specified manufacturer is the conventional production that can be obtained by commercially available purchase
Product.
The light lath for building partition wall of the embodiment of the present invention and its production method are specifically described below.
The present invention provides a kind of light lath for building partition wall comprising ontology, ontology include side wall and connect with side wall
The bottom wall and roof connect, bottom wall and roof are respectively equipped with glass fiber mesh layer, by the setting of glass fiber mesh layer, effectively
Improve the flexural capacity of light lath for building partition wall.
Side wall includes being sequentially connected the first side wall annular in shape, second sidewall, third side wall, the 4th side wall, the first side wall
Equipped with protrusion, third side wall is equipped with groove corresponding with protrusion, is passed through by two adjacent light lath for building partition wall convex
The cooperation with groove is played, is effectively assembled, installation is more convenient, lightens one's labor.Optionally, in order to enable fixed effect more
Good, raised longitudinal cross-section is in isosceles trapezoid, and cross-sectional area of the protrusions close to the side of ontology is more than protrusion far from this
The cross-sectional area of the side of body.
There is hole in ontology, effectively enhance sound insulation, heat insulation effect.
The raw material of ontology is counted in parts by weight, including:
440-470 parts of cement, 130-150 parts of high-titanium blast furnace slag, 50-70 parts of silicon ash, high-titanium blast furnace slag micro mist 20-30
Part, 10-30 parts of expanded perlite, can divide 50-70 parts of flyash, 1-3 parts of cellulose, 13-15 parts of aluminium powder, 330-345 parts of water again
Dissipate 3-8 parts of 10-20 parts of latex powder and alkali-resistant glass fibre.It is above-mentioned it is each under the conditions of, effectively enhance light lath for building partition wall
Lightweight, heat preservation and soundproof and flexural strength.
Wherein, its stable chemical performance of high-titanium blast furnace slag, physical temperature deformation is small, while being inside high-titanium blast furnace slag
Loose and porous structure, conducive to absorbing, discharging the stress for generation of expanding with heat and contract with cold, while water absorption rate is 4%-6%, in concrete setting
Interior maintenance action can be played in the process.
In preferred embodiments of the present invention, high-titanium blast furnace slag is the grading high-titanium blast furnace slag that grain size is 10-60mm.Its
Outer surface aperture can form mechanical snap effect with cement, and bonding plane increases compared with ordinary gravel, increases building partition lightweight item
The durability of plate, while being conducive to release and expanding with heat and contract with cold, seek the stress that the effect of cutting generates.
High-titanium blast furnace slag micro mist has certain activity, effectively improves the performance of light lath for building partition wall.Simultaneously
High-titanium blast furnace slag micro mist can preferably improve the adhesive strength of concrete interface, form thin see from tightly packed system and generation
More hydrated products effectively improve intensity, abrasion resistance of last light lath for building partition wall etc., while high titania type blast furnace
The addition of slag micro mist can reduce the dosage of cement, effectively reuse high-titanium blast furnace slag, and then it is dirty to reduce environment
Dye.
In preferred embodiments of the present invention, high-titanium blast furnace slag micro mist is made by following methods:
By high-titanium blast furnace slag water quenching cooling, after dry, after grinding aid co-grinding 13-15min, the excitation of sulphur system is added
Agent continues to crush 15-20min, obtains high-titanium blast furnace slag micro mist.Using first grinding aid, the mode of after vulcanization system exciting agent, effectively
The activity for enhancing high-titanium blast furnace slag micro mist carries out convenient for the later stage such as hydration reaction.
Silicon ash and flyash improve impermeability for filling original defect in light lath for building partition wall.Water
Muddy water metaplasia at calcium hydroxide reacted with silicon ash, generate hydrated calcium silicate and drated calcium aluminate, keep tissue more fine and closely woven,
Enhance intensity.
In preferred embodiments of the present invention, the SiO of silicon ash2Content is more than 90%, between grain size is 0.1-1.3 μm.
Aluminium powder is reacted mainly as foaming agent, by aluminium powder with hydrolysis product of cement, generates bubble hydrogen, building partition is made to use
It is internal after light lath solidification to form honeycomb structure, light thermal-insulation.
In order to enable foaming after, the size of hole is uniform, and prevents from caving in and not be durable, addition sodium cellulose glycolate and
Redispersable latex powder.
Alkali-resistant glass fibre effectively prevent in light lath for building partition wall the extension of original defect (slit) and effective
The appearance of new slit is prevented, while effectively reducing the connection gap in light lath for building partition wall, is effectively prevented external
Moisture, while enhancing, toughening and loss of weight etc..Expanded perlite further increases the insulation of light lath for building partition wall
Fire protecting performance.
The present invention also provides a kind of production methods of above-mentioned light lath for building partition wall comprising:
S1. the slurry injection obtained after raw material being mixed is equipped in the mold of glass fiber mesh layer, extrusion forming.
Wherein, mold is in hollow form, and mold includes the lug boss for making the body part of ontology, for making protrusion,
And the concave part for making groove, lug boss are connected to body part, concave part is connected to body part, and concave part is equipped with and is used for
The sprue of slurry is perfused, glass fiber mesh layer is layed in the roof and bottom wall of body part respectively.
Wherein, mold is that upper mold and lower mold detachably splice gained, convenient for the green body in later stage break away from moulds.
In preferred embodiments of the present invention, mixing includes:
It is first that the water of 70%-80%, high-titanium blast furnace slag, expanded perlite and alkali-proof glass is fine under stirring
After dimension mixing, 1-2min is stirred, so that its surface is flooded profit, remaining water, cement, silicon ash, high-titanium blast furnace slag is then added
Micro mist, flyash, sodium cellulose glycolate and redispersable latex powder continue after stirring 2-5min so that second of addition
Raw material be wrapped in for the first time addition raw material outer wall, prevent flyash etc. to be filled in high-titanium blast furnace slag and expanded perlite
In interior hole, enhance light thermal-insulation effect, be eventually adding aluminium powder, continue stir 0.5-1.5min, carry out fully foaming and
Mixing.
In preferred embodiments of the present invention, it is preferable that further include in mold before glass fiber mesh layer is layed in mold
Inner wall coat interleaving agent, be convenient for later stage break away from moulds.
Since the surface of high-titanium blast furnace slag is formed by cement mortar package is chimeric, there are a large amount of hole between aggregate, at
The cement mortar on rubble surface can be made to be shaken mistake in type manufacturing process according to the method for vibration, cement mortar downslide can block base apertures
Gap, while coarse aggregate surface loses cement mortar, the bonding being unfavorable between aggregate, therefore use static pressure extrusion forming.Wherein, static pressure
Extrusion forming can be used board wall extruder and be suppressed.
Extrusion forming includes:Release after pressurize 50-70s after 30-40KN is risen to 2-3KN/s.
S2. it is warming up to 35-50 DEG C of maintenance 1.5-2h.
In preferred embodiments of the present invention, the rate of heating is 2-2.5 DEG C/min, is carried out convenient for its in maintenance processes is internal
Chemical reaction.
Optionally, further include that rubbing down is carried out to its surface after conserving.
The feature and performance of the present invention are described in further detail with reference to embodiments.
Embodiment 1
The present invention provides a kind of light lath for building partition wall 10 comprising ontology 100, ontology 100 include side wall and
The bottom wall (not shown) and roof (not shown) being connect with side wall, bottom wall and roof are respectively equipped with glass fiber mesh layer 130,
Side wall includes being sequentially connected the first side wall 101 annular in shape, second sidewall 102, third side wall 103, the 4th side wall 104, and first
Side wall 101 is equipped with protrusion 110, third side wall 103 be equipped with raised 110 corresponding grooves 120, there is hole (figure in ontology 100
Do not show).
Wherein, the raw material of ontology 100 is counted in parts by weight, including:
450 parts of cement, 135 parts of high-titanium blast furnace slag, 56 parts of silicon ash, 25 parts of high-titanium blast furnace slag micro mist, 57 parts of flyash,
2 parts of sodium cellulose glycolate, 14 parts of aluminium powder, 335 parts of water, 15 parts of expanded perlite, 13 parts of redispersable latex powder and alkaline-resisting
5 parts of glass fibre.
The SiO of silicon ash2Content is more than 90%, between grain size is 0.1-1.3 μm.High-titanium blast furnace slag is that grain size is 10-
The grading high-titanium blast furnace slag of 60mm.High-titanium blast furnace slag micro mist is made by following methods:By high-titanium blast furnace slag water quenching cooling,
After drying, after grinding aid co-grinding 15min, sulphur system exciting agent is added and continues to crush 17min, it is micro- to obtain high-titanium blast furnace slag
Powder.
Embodiment 2
The present invention provides the preparation method for the light lath for building partition wall that embodiment 1 provides comprising:
Interleaving agent is coated in the inner wall of mold.
Wherein, mold is in hollow form, and mold includes the lug boss for making the body part of ontology, for making protrusion,
And the concave part for making groove, lug boss are connected to body part, concave part is connected to body part, and concave part is equipped with and is used for
The sprue for the slurry that perfusion obtains after mixing raw material.
After glass fiber mesh layer is layed in the roof and bottom wall of body part respectively, slurry is injected through sprue, with
2.5KN/s rises to after 35KN that release is warming up to 45 DEG C of maintenance 2h to extrusion forming with the rate of 2.5 DEG C/min after pressurize 60s
Afterwards, it demoulds, rubbing down is carried out to its surface.
Wherein, mixing includes:
It is first that the water of 70%-80%, high-titanium blast furnace slag, expanded perlite and alkali-proof glass is fine under stirring
After dimension mixing, 1.5min is stirred, remaining water, cement, silicon ash, high-titanium blast furnace slag micro mist, flyash, methylol is then added
Sodium cellulosate and redispersable latex powder continue after stirring 3min, aluminium powder are added, and continue to stir 1min.
Embodiment 3
The present invention provides a kind of light lath for building partition wall 10 comprising ontology 100, ontology 100 include side wall and
The bottom wall (not shown) and roof (not shown) being connect with side wall, bottom wall and roof are respectively equipped with glass fiber mesh layer 130,
Side wall includes being sequentially connected the first side wall 101 annular in shape, second sidewall 102, third side wall 103, the 4th side wall 104, and first
Side wall 101 is equipped with protrusion 110, third side wall 103 be equipped with raised 110 corresponding grooves 120, there is hole (figure in ontology 100
Do not show).
Wherein, the raw material of ontology 100 is counted in parts by weight, including:
455 parts of cement, 140 parts of high-titanium blast furnace slag, 62 parts of silicon ash, 22 parts of high-titanium blast furnace slag micro mist, 56 parts of flyash,
1.5 parts of sodium cellulose glycolate, 14 parts of aluminium powder, 340 parts of water, 25 parts of expanded perlite, 17 parts of redispersable latex powder and resistance to
4 parts of alkali containing glass fibre.
The SiO of silicon ash2Content is more than 90%, between grain size is 0.1-1.3 μm.High-titanium blast furnace slag is that grain size is 10-
The grading high-titanium blast furnace slag of 60mm.High-titanium blast furnace slag micro mist is made by following methods:By high-titanium blast furnace slag water quenching cooling,
After drying, after grinding aid co-grinding 15min, sulphur system exciting agent is added and continues to crush 17min, it is micro- to obtain high-titanium blast furnace slag
Powder.
Embodiment 4
The present invention provides the preparation method for the light lath for building partition wall that embodiment 3 provides comprising:
Interleaving agent is coated in the inner wall of mold.
Wherein, mold is in hollow form, and mold includes the lug boss for making the body part of ontology, for making protrusion,
And the concave part for making groove, lug boss are connected to body part, concave part is connected to body part, and concave part is equipped with and is used for
The sprue for the slurry that perfusion obtains after mixing raw material.
After glass fiber mesh layer is layed in the roof and bottom wall of body part respectively, slurry is injected through sprue, with 2KN/s
Rise to after 35KN that release is to extrusion forming after pressurize 60s, after being warming up to 45 DEG C of maintenance 2h with the rate of 2 DEG C/min, demoulding is right
Its surface carries out rubbing down.
Wherein, mixing includes:
It is first that the water of 70%-80%, high-titanium blast furnace slag, expanded perlite and alkali-proof glass is fine under stirring
After dimension mixing, 1.5min is stirred, remaining water, cement, silicon ash, high-titanium blast furnace slag micro mist, flyash, methylol is then added
Sodium cellulosate and redispersable latex powder continue after stirring 4min, aluminium powder are added, and continue to stir 1.5min.
Embodiment 5
Its with embodiment 1 difference lies in high-titanium blast furnace slag is replaced with rubble, while by high-titanium blast furnace slag micro mist
Using coal ash instead.
Embodiment 6
Itself the difference from example 2 is that:By water, high-titanium blast furnace slag, expanded perlite, alkali-resistant glass fibre, cement,
After silicon ash, high-titanium blast furnace slag micro mist, flyash, sodium cellulose glycolate and redispersable latex powder mixing, continue to stir
After 3min, aluminium powder is added, continues to stir 1min.
Test example
Using the light lath for building partition wall that embodiment 1 provides made from the method provided using embodiment 2 as experiment
Group 1.Using the light lath for building partition wall that embodiment 3 provides made from the method that embodiment 4 provides as test group 2.It adopts
It uses the light lath for building partition wall that embodiment 1 provides made from the method for the offer of embodiment 6 as test group 3, and uses
The light lath for building partition wall that embodiment 5 provides made from the method that embodiment 2 provides, as test group 4.
According to《People's Republic of China's professional standard (JGJ/T157-2008):Building light-weight batten partition wall technical regulation》,
Test group 1-4 is verified, as a result the bending resistance failing load of test group 1-4/plate conducts oneself with dignity multiple >=2, while moisture content is equal
Less than≤6%, surface density≤87kg/m2, fire endurance >=2h, compression strength >=10MPa is satisfied by JGJ/T157-2008's
Standard and be better than JGJ/T157-2008 standards.
Wherein, flexural capacity is followed successively by test group 1>Test group 2>Test group 4>Test group 3;
Moisture content is followed successively by test group 1<Test group 2<Test group 3<Test group 4.
To sum up, the light lath for building partition wall of the embodiment of the present invention, High anti bending strength, production cost are low, while light
Matter, heat preservation, soundproof effect are good.The production method of above-mentioned light lath for building partition wall, it is easy to operation, effectively improve obtained build
Build the performance of partition wall light lath.
Embodiments described above is a part of the embodiment of the present invention, instead of all the embodiments.The reality of the present invention
The detailed description for applying example is not intended to limit the range of claimed invention, but is merely representative of the selected implementation of the present invention
Example.Based on the embodiments of the present invention, those of ordinary skill in the art are obtained without creative efforts
Every other embodiment, shall fall within the protection scope of the present invention.
Claims (10)
1. a kind of light lath for building partition wall, which is characterized in that it includes ontology, the ontology include side wall and with it is described
The bottom wall and roof of side wall connection, the bottom wall and the roof are respectively equipped with glass fiber mesh layer, and the side wall includes
It is sequentially connected the first side wall annular in shape, second sidewall, third side wall, the 4th side wall, the first side wall is equipped with protrusion, described
Third side wall is equipped with groove corresponding with the protrusion, has hole in the ontology;
The raw material of the ontology is counted in parts by weight, including:
440-470 parts of cement, 130-150 parts of high-titanium blast furnace slag, 50-70 parts of silicon ash, 20-30 parts of high-titanium blast furnace slag micro mist,
50-70 parts of flyash, 1-3 parts of sodium cellulose glycolate, 13-15 parts of aluminium powder, 330-345 parts of water, 10-30 parts of expanded perlite,
3-8 parts of 10-20 parts of redispersable latex powder and alkali-resistant glass fibre.
2. light lath for building partition wall according to claim 1, which is characterized in that the SiO of the silicon ash2Content is more than
90%, between grain size is 0.1-1.3 μm.
3. light lath for building partition wall according to claim 1, which is characterized in that the high-titanium blast furnace slag is grain size
For the grading high-titanium blast furnace slag of 10-60mm.
4. light lath for building partition wall according to claim 1, which is characterized in that the high-titanium blast furnace slag micro mist by
Following methods are made:
By high-titanium blast furnace slag water quenching cooling, after dry, after grinding aid co-grinding 13-15min, be added sulphur system's exciting agent after
The broken 15-20min of continued powder, obtains high-titanium blast furnace slag micro mist.
5. the production method of the light lath for building partition wall as described in claim 1-4 any one, which is characterized in that by institute
It states the slurry injection obtained after raw material mixing to be equipped in the mold of the glass fiber mesh layer, extrusion forming is warming up to 35-50
DEG C maintenance 1.5-2h;
Wherein, the mold is in hollow form, and the mold includes the protrusion for making the body part of ontology, for making protrusion
Portion, and the concave part for making groove, the lug boss are connected to the body part, the concave part and the body part
Connection, the concave part are equipped with the sprue for the slurry to be perfused, and the glass fiber mesh layer is layed in described respectively
The roof and bottom wall in body portion.
6. production method according to claim 5, which is characterized in that mixing includes:
Under stirring, first by the water of 70%-80%, the high-titanium blast furnace slag, the expanded perlite and institute
After stating alkali-resistant glass fibre mixing, 1-2min is stirred, the remaining water, the cement, the silicon ash, the height is then added
Titanium blast furnace slag micro mist, the flyash, the sodium cellulose glycolate and the redispersable latex powder continue to stir 2-
After 5min, the aluminium powder is added, continues to stir 0.5-1.5min.
7. production method according to claim 5, which is characterized in that the glass fiber mesh layer is layed in the mold
Before, further include in the mold inner wall coat interleaving agent.
8. production method according to claim 5, which is characterized in that the extrusion forming includes:It is risen to 2-3KN/s
Release after pressurize 50-70s after 30-40KN.
9. production method according to claim 5, which is characterized in that the rate of heating is 2-2.5 DEG C/min.
10. production method according to claim 5, which is characterized in that further include carrying out rubbing down to its surface after conserving.
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