CN1594796A - Fiber reinforcement battened composite porous light partition plate and production process thereof - Google Patents

Abstract

The present discloses fiber reinforcement battened composite porous light partition plate and production process thereof, the fiber reinforcement battened composite porous light partition plate comprises two plates and core body between the same, the two plates are bonded on the core body, and the plates are for autoclaving fiber reinforcement batten or fiber reinforcement battened low-alkalinity concrete building plate, a weight reducing hole is opened on the core body. The production process comprises steps of (1) preparing plate; (2) inserting two plates to sides of the module frame having loose core steel tube; (3) obtaining mixture material after mixing core body material; (4) injecting mixture material into the module frame; (5) vibrating the core body concrete to be dense; (6) extracting out the loose core steel tube after the concrete congeals early, (7) mold stripping after natural conserving and heating conserving; (8) achieving production when conserving more than fourteen days. The invention has good impact resistance, high bending resistance, good folding resistance, large thermal ratio, low constriction value of drying, and the raw material is easy to obtain.

Description

Compound porous light partition board of a kind of fiber reinforcement thin plate and production technology thereof

Affiliated technical field

The present invention relates to building material field, particularly relate to compound porous light partition board of a kind of fiber reinforcement thin plate and production technology thereof.

Background technology

In construction work, ban use of solid clay brick, protect farmland; energy conservation, the protection environment utilizes the industrial residue waste material; meet the policy of national materials for wall innovation and building energy conservation, improving the building area utilization rate and alleviating the building deadweight also is the direction of development of housing industry.

For this reason, new construction material develops rapidly in recent years, multiple light wall board has appearred, as the light porous partition wall batten of glass fiber reinforced cement, hollow class wall boards such as industrial ash slag concrete porous partition batten, as internal partition wall board for building, has lightweight, the construction efficiency height, common advantage such as building area utilization rate height, it is poor that but above these boards all exist shock resistance, the bending resistance rupture load is little, rupture strength is low, the bigger installation of drying shrinkage value is easy to crack, sound-insulation value is low, coefficient of thermal conductivity is bigger than normal, defectives such as presentation quality difference have hindered the popularization of light weight board to a certain extent.

Summary of the invention

An object of the present invention is to provide that shock resistance is good, the bending resistance rupture load is big, rupture strength is high, sound-insulation value is big, coefficient of thermal conductivity is little, drying shrinkage value is low, wall construction the crack can not occur when the back drying shrinkage is installed, and the raw material selection is the compound porous light partition board of fiber reinforcement thin plate of light and thin widely; For this reason, the present invention also will provide a kind of production technology of producing the compound porous light partition board of this fiber reinforcement thin plate.

The compound porous light partition board of fiber reinforcement thin plate of the present invention comprises the core body between two panels and two panels, two panels are bonded on the core body, panel is pressed fiber reinforcement thin plate or fiber reinforcement low alkalinity cement building slab for steaming, be preferably to steam and press fiber reinforcement chiltern cement plate or steam pressure fiber reinforcement calcium silicates thin plate or fiber reinforcement low alkalinity cement building slab, have lightening hole on the core body, the hole ratio of lightening hole is preferably 5%～55%.

Core material preferably adopts following prescription by mass fraction:

Cement: 200

Flyash: 0～70

Sand: 150～400

Granules of polystyrene: 3～12

Pottery sand or haydite: 0～160

Retardation water reducing agent: 0～4

Water: 100～150.

Wherein cement is preferably sulphate aluminium cement, flyash is preferably ash more than three grades, retardation water reducing agent is preferably the polycarboxylic acids sodium water solution, sand is preferably medium sand, and modulus is 3.0～2.3, and granules of polystyrene is preferably through steam and is foamed into the bubble pearl, foaming unit weight is 13.5～15g/L, particle radius is at 1.2～1.6mm, and the preferred diameter of pottery sand particle is in 5mm, and the preferred diameter of haydite particle is at 5～10mm.

Accurate positioning is convenient when making the compound porous light partition board assembly unit of two fiber reinforcement thin plates, has tenon in two side one sides of width of core body, and opposite side has tongue-and-groove.

Joint filler full closely knit being difficult for drops when making the compound porous light partition board assembly unit of two fiber reinforcement thin plates, and a panel wherein lateral edges exceeds core body 2～8mm.

The compound porous light partition board production technology of fiber reinforcement thin plate of the present invention may further comprise the steps:

1. be ready to steam and press fiber reinforcement thin plate or fiber reinforcement low alkalinity cement building slab as panel, steam and press the fiber reinforcement thin plate to follow the example of or slurry flowing process production moulding, make by autoclave in 8～15 hours (steam pressure is at 8～15 atmospheric pressure) again to copy;

2. two panels are inserted the mold mould frame both sides that are furnished with the steel pipe of loosing core, the coarse hair side of two panels is at the inboard conduct bonding surface mutually bonding with core body;

3. after getting core material ready metering, evenly obtain mix after the stirring with concrete mixer;

4. the mix that will obtain after will evenly stirring with concrete pouring equipment injects in the mold mould frame;

5. the core body vibratory concrete is closely knit;

6. the steel pipe of loosing core after the cement initial set;

7. the demoulding behind natural curing or the heating curing;

8. natural curing was finished finished product more than 14 days.According to the different definite curing times of cement type, general sulphate aluminium cement needs natural curing more than 14 days.

The invention has the beneficial effects as follows: press fiber reinforcement thin plate or fiber reinforcement low alkalinity cement building slab as panel owing to adopt to steam, rupture strength is higher, contract with dry rate and the wet rate that rises are lower, solve wallboard assembly unit seam owing to the crack problem that drying shrinkage causes, improved shock resistance, bending resistance rupture load and the rupture strength of wallboard.Have lightening hole according to core body concrete material density difference on the core body, lightening hole can be according to the different hole ratios of adjusting of core body concrete material density, the difference of functions such as the sound insulation that can require according to wallboard, heat insulation, insulation is selected the core body raw material, the scope that can be used as core material simultaneously is also more extensive, can adopt industrial residue and various aglite as core material in a large number.The optional material of the present invention is extensive, and cost of production is low, waterproof, every wet, heat insulation, fireproof performance is good, can follow closely and can saw.Be used for the internal partition for building body, building area utilization rate height, the construction efficiency height, wall surface levelling is attractive in appearance, need not batch ash.

Description of drawings

The invention will be further described below in conjunction with the drawings and specific embodiments:

Fig. 1 is the cross-sectional view of the specific embodiment of the invention;

Schematic diagram when Fig. 2 is assembly unit of the present invention.

The specific embodiment

In Fig. 1, the compound porous light partition board of fiber reinforcement thin plate comprises the core body 2 between two panels 1 and two panels, panel 1 is pressed fiber reinforcement chiltern cement plate for steaming, two panels 1 are bonded on the core body 2, have lightening hole 6 on the core body, and the hole ratio of lightening hole is 30%, both sides one side of core body 2 has trapezoidal tongue-and-groove 3, one side has trapezoidal tenon 4, and a panel wherein lateral edges 7 exceeds core body 4mm, and core material by the prescription of mass fraction is:

Sulphate aluminium cement: 200

Flyash more than three grades: 60

Modulus is 3.0～2.3 medium sands: 300

Foaming unit weight is 13.5～15g/L, and particle radius is at 1.2～1.6mm granules of polystyrene: 3

Diameter at 5mm with interior pottery sand: 150

Polycarboxylic acids sodium water solution: 2

Water: 110.

The step of production technology is as follows:

1. be ready to steam and press fiber reinforcement chiltern cement plate as panel;

2. two hair sides panel is inwards inserted the mold mould frame both sides that are furnished with the steel pipe of loosing core;

3. after core material being got ready, evenly obtain mix after the stirring with concrete mixer;

4. the mix that will obtain after will evenly stirring with concrete pouring equipment injects in the mold mould frame;

5. the core body vibratory concrete is closely knit;

6. the steel pipe of loosing core after the cement initial set;

7. the demoulding behind natural curing or the heating curing;

8. natural curing was finished finished product more than 14 days.

By 2440mm * 610mm * compound porous light partition board of 90mm fiber reinforcement thin plate that above technical scheme is made, its key technical indexes is as follows:

Wallboard surface density 80Kg/m ²

Axial compression strength 6MPa

5 times of bending resistance rupture loads are conducted oneself with dignity to wallboard

(30Kg sand pocket 0.5m fall impact, the backboard face does not go out shock resistance more than 50 times

Existing through crack)

Drying shrinkage value 0.4mm/m

Coefficient of thermal conductivity 0.2～0.3W/ (m.K)

Air weighting sound insulation factor 40dB

When two wallboard splicings, as shown in Figure 2, tenon 4 and tongue-and-groove 3 alignment, two blocks of wallboards join, and middle joint filler 5 is because the face plate edge that is exceeded is protected shelves, and is full more closely knit during extruding, and distributes more even along whole Mosaic face.

Claims (9)

1, the compound porous light partition board of a kind of fiber reinforcement thin plate, comprise the core body between two panels and two panels, described two panels are bonded on the core body, it is characterized in that: described panel is pressed fiber reinforcement thin plate or fiber reinforcement low alkalinity cement building slab for steaming, and has lightening hole on the described core body.

2, the compound porous light partition board of fiber reinforcement thin plate as claimed in claim 1 is characterized in that: described steaming presses the fiber reinforcement thin plate to press fiber reinforcement chiltern cement plate for steaming.

3, the compound porous light partition board of fiber reinforcement thin plate as claimed in claim 1 is characterized in that: described steaming presses the fiber reinforcement thin plate to press fiber reinforcement calcium silicates thin plate for steaming.

4, the compound porous light partition board of fiber reinforcement thin plate as claimed in claim 1, it is characterized in that: the mass fraction of each composition is in the described core material prescription:

Cement: 200

Flyash: 0～70

Sand: 150～400

Granules of polystyrene: 3～12

Pottery sand or haydite: 0～160

Retardation water reducing agent: 0～4

Water: 100～150.

5, the compound porous light partition board of fiber reinforcement thin plate as claimed in claim 4, it is characterized in that: described cement is sulphate aluminium cement, described flyash is ash more than three grades, and described retardation water reducing agent is the polycarboxylic acids sodium water solution, and described sand is medium sand, modulus is 3.0～2.3, described granules of polystyrene is for being foamed into the bubble pearl through steam, foaming unit weight is 13.5～15g/L, and particle radius is at 1.2～1.6mm, described pottery sand particle diameter is in 5mm, and the haydite particle diameter is at 5～10mm.

6, as the compound porous light partition board of the described fiber reinforcement thin plate of the arbitrary claim of claim 1 to 5, it is characterized in that: the hole ratio that has lightening hole on the described core body is 5%～55%.

7, as the compound porous light partition board of the described fiber reinforcement thin plate of the arbitrary claim of claim 1 to 5, it is characterized in that: both sides one side of described core body width has tenon, and opposite side has tongue-and-groove.

8, as the compound porous light partition board of the described fiber reinforcement thin plate of the arbitrary claim of claim 1 to 5, it is characterized in that: a described panel wherein lateral edges exceeds core body 2～8mm.

9, the production technology of the compound porous light partition board of the described fiber reinforcement thin plate of a kind of production claim 1 may further comprise the steps:

1. be ready to steam and press fiber reinforcement thin plate or fiber reinforcement low alkalinity cement building slab as panel;

2. two panels are inserted the mold mould frame both sides that are furnished with the steel pipe of loosing core, the coarse hair side of two panels is at the inboard conduct bonding surface mutually bonding with core body;

3. after getting core material ready metering, evenly obtain mix after the stirring with concrete mixer;

4. the mix that will obtain after will evenly stirring with concrete pouring equipment injects in the mold mould frame;

5. the core body vibratory concrete is closely knit;

6. the steel pipe of loosing core after the cement initial set;

7. the demoulding behind natural curing or the heating curing;

8. natural curing was finished finished product more than 14 days.

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