Plant fiber reinforced inorganic light composite and preparation method thereof

A plant fiber and composite material technology, applied in the field of construction and decorative materials, can solve the problems of high density of composite boards, poor thermal insulation performance, uneven technical level, etc., and achieve high compressive and bending strength, condensation Fast speed and anti-shrinkage effect

Inactive Publication Date: 2017-05-31
CENTRAL SOUTH UNIVERSITY OF FORESTRY AND TECHNOLOGY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The magnesium-based inorganic cementitious materials have become a new type of building material that has attracted much attention due to their high strength, fast coagulation speed, and excellent flame-retardant properties. However, due to uneven technical levels, the product quality is very low. Stable, so still needs improvement
[0003] Chinese patent application 201510469444 discloses an invention patent for fiber-reinforced composite materials, which uses plant fibers, but in this application, organic polymers are selected as the matrix material, and the main reinforcing fibers are glass fibers and inorganic whiskers. Fibers are added in the form of powder mainly for filling effect. It can be seen that the composite material of th

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0046] A plant fiber reinforced inorganic lightweight composite material of the present invention is mainly prepared from the following raw materials:

[0047] Magnesium chloride hexahydrate (mass fraction of magnesium chloride is 46%) 100 parts;

[0048] 44 parts of magnesium sulfate heptahydrate;

[0049] Lightly burned magnesia (the mass fraction of magnesia is 75%, and the reactivity is 60%) 406 parts;

[0050] 202 parts of water;

[0051] 5 parts of polycarboxylate superplasticizer;

[0052] Enhancer (a mixture of 52.5R white silicate, EVA emulsion, silicone acrylic emulsion) 12 parts;

[0053] 30 parts of mixed fiber of wood fiber, bamboo fiber and crop straw fiber;

[0054] 75 parts of foaming agent hydrogen peroxide;

[0055] 12 parts of activator manganese dioxide powder;

[0056] 19 parts of stabilizer calcium stearate;

[0057] Coagulation regulator (mixture of triethanolamine and lithium carbonate) 1 part.

[0058] The preparation method of the plant fiber ...

Embodiment 2

[0065] A plant fiber reinforced inorganic lightweight composite material of the present invention is mainly prepared from the following raw materials:

[0066] Magnesium chloride hexahydrate (mass fraction of magnesium chloride is 45%) 100 parts;

[0067] 53 parts of magnesium sulfate heptahydrate;

[0068] Lightly burned magnesia (the mass fraction of magnesia is 85%, the reactivity is 65%) 335 parts;

[0069] 185 parts of water;

[0070] Water reducer (a mixture of sulfamate high-efficiency water reducer and sulfonated melamine water reducer) 7 parts;

[0071] Strengthening agent (a mixture of 82.5R high-strength and fast-hardening white sulfoaluminate, 42.5R ordinary silicate, and silicon-acrylic emulsion) 16 parts;

[0072] 21 parts of mixed fiber of bamboo fiber and crop straw fiber;

[0073] 55 parts of foaming agent aluminum powder;

[0074] 9 parts of activator 0.1mol / L sodium hydroxide solution;

[0075] Stabilizer (mixture of polyacrylamide and hydroxymethyl ce...

Embodiment 3

[0084] A plant fiber reinforced inorganic lightweight composite material of the present invention is mainly prepared from the following raw materials:

[0085] Magnesium chloride hexahydrate (mass fraction of magnesium chloride is 44%) 100 parts;

[0086] 61 parts of magnesium sulfate heptahydrate;

[0087] Light-burned magnesia (the mass fraction of magnesia is 95%, and the reactivity is 68%) 274 parts;

[0088] 167 parts of water;

[0089] Water reducer (a mixture of polycarboxylate superplasticizer, sulfamate superplasticizer, and sulfonated melamine superplasticizer) 7 parts;

[0090] Strengthening agent (52.5R quick-hardening ordinary sulfoaluminate) 16 parts;

[0091] 11 parts of wood fiber;

[0092] Foaming agent (hydrogen peroxide) 35 parts;

[0093] Activator (manganese dioxide powder) 6 parts;

[0094] Stabilizer (mixture of calcium stearate, polyacrylamide and hydroxymethyl cellulose) 9 parts;

[0095] Coagulant (triethanolamine) 1.5 parts.

[0096] The prep...

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Abstract

The invention discloses a plant fiber reinforced inorganic light composite which is mainly prepared from magnesium chloride hexahydrate, magnesium sulfate heptahydrate, light calcined magnesia, water, a water reducer, a reinforcing agent, reinforcing fibers, a foaming agent, an exciting agent, a stabilizer and adjusting admixture. The preparation method comprises steps as follows: magnesium chloride hexahydrate, magnesium sulfate heptahydrate and water are mixed to be made into a saline solution; light calcined magnesia, the water reducer and the reinforcing agent are added to the saline solution, the mixture is stirred at a constant speed, and an inorganic sizing material is obtained; the reinforcing fibers are added to the inorganic sizing material and stirred at a constant speed, the adjusting admixture, the stabilizer and the exciting agent are dropwise added slowly, finally, the foaming agent is added quickly, the mixture is stirred at a high speed, and a foamed inorganic sizing material is obtained; the foamed inorganic sizing material is poured into a die, left to stand for foaming, removed from the die and maintained, and the plant fiber reinforced inorganic light composite is obtained. The composite has the advantages of high pressure resistance, high bending resistance, low density, no formaldehyde, aging resistance, mildew resistance, termite resistance, moisture-proof performance, no deformation, sound and heat insulation, good heat preservation and the like.

Description

technical field [0001] The invention belongs to the field of construction and decoration materials, and in particular relates to a plant fiber reinforced inorganic lightweight composite material and a preparation method thereof. Background technique [0002] In recent years, with the rapid development of high-rise buildings, in order to meet the requirements of thermal insulation and earthquake resistance and reduce the load of roof beams and columns, the demand for lightweight porous building composite materials is increasing. In the prior art, the preparation of lightweight composite materials is usually by adding a foaming agent to the cementitious material or mixing polystyrene foam, polyurethane foam, etc. with the cementitious material, but the strength of the lightweight material produced by this technology is not high , prone to cracking, collapse and other problems, and the fire performance is not high. Especially with the occurrence of more and more fire accidents...

Claims

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Application Information

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IPC IPC(8): C04B28/02C04B38/02C04B18/24C04B18/26C04B111/40
CPCC04B28/32C04B2111/28C04B2111/40C04B2201/20C04B2201/32C04B2201/50C04B22/142C04B2103/302C04B7/02C04B24/26C04B24/42C04B18/24C04B22/068C04B22/06C04B24/04C04B24/122C04B22/10C04B38/02C04B7/32C04B22/04C04B22/062C04B24/2652C04B24/383C04B24/16C04B18/26Y02W30/91
Inventor 吴义强肖俊华吕建雄刘元卿彦左迎峰李贤军李新功
Owner CENTRAL SOUTH UNIVERSITY OF FORESTRY AND TECHNOLOGY
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