Novel fiber reinforced composite heat insulation plate and preparing method of novel fiber reinforced composite heat insulation plate

A fiber-reinforced composite, thermal insulation board technology, applied in thermal insulation, chemical instruments and methods, building components, etc., can solve the problems of poor corrosion resistance, hidden fire hazards, low impact resistance, etc. Fire hazard, strong adhesion effect

Inactive Publication Date: 2015-10-28
CHINA BUILDING MATERIALS ACAD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

These traditional insulation sandwich panels have some shortcomings: 1) low mechanical strength, especially low impact resistance; 2) poor corrosion resistance, especially in hot and humid environments; 3) the outer surface is monotonous Steel plate, poor touch and appearance; 4) Since the insulation core material used is a flammable material, there is a fire hazard

Method used

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  • Novel fiber reinforced composite heat insulation plate and preparing method of novel fiber reinforced composite heat insulation plate
  • Novel fiber reinforced composite heat insulation plate and preparing method of novel fiber reinforced composite heat insulation plate
  • Novel fiber reinforced composite heat insulation plate and preparing method of novel fiber reinforced composite heat insulation plate

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0066] This embodiment prepares the above-mentioned novel fiber-reinforced composite insulation board according to the following steps:

[0067] (1) Mix the raw materials in the following proportions by weight, and stir evenly to obtain polymer modified mortar, which is used as the bottom mortar: 112.5kg (45.0%) of sulfoaluminate cement, 87.5kg (35.0%) of sand, Modified polypropylene emulsion 20kg (8.0%), water 29kg (11.6%), polycarboxylate superplasticizer 0.75kg (0.3%), powder defoamer 0.25kg (0.1%);

[0068] (2) The template is installed on the production line, and a layer of PVA coil is laid in the template;

[0069] (3) Pour the bottom mortar onto the formwork, and pass the height limit of the scraper on the production line to form a 5mm thick bottom layer;

[0070] (4) Laying a three-dimensional fiber fabric with a thickness of 150mm on the bottom layer, after vibrating for 3 minutes by a vibrator under the production line, the bottom layer is initially set for 15 minut...

Embodiment 2

[0078] This embodiment prepares the above-mentioned novel fiber-reinforced composite insulation board according to the following steps:

[0079] (1) Mix the raw materials in the following proportions by weight, and stir evenly to obtain polymer modified mortar, which is used as the bottom mortar: 135kg (18%) of ordinary Portland cement, 90kg (12%) of metakaolin, fine 296.25kg (39.5%) of stones, 120kg (20%) of modified silicone acrylic emulsion, 75.75kg (10.1%) of water, 2.25kg (0.3%) of naphthalenesulfonate water reducer, 0.75kg (0.1%) of liquid defoamer );

[0080] (2) The template is installed on the production line, and a layer of kraft paper is laid in the template;

[0081] (3) Pour the bottom mortar onto the formwork, and pass the height limit of the scraper on the production line to form a 15mm thick bottom layer;

[0082] (4) Lay a three-dimensional fiber fabric with a thickness of 100mm on the bottom layer, vibrate for 3 minutes through a vibrator under the producti...

Embodiment 3

[0090] This embodiment prepares the above-mentioned novel fiber-reinforced composite insulation board according to the following steps:

[0091] (1) Mix the raw materials of the following weight percent ratios, stir evenly, and make polymer modified mortar, which is used as the bottom mortar: Portland cement 157.5kg (31.5%), fly ash 75kg (15%), Ceramic chips 225kg (45%), polystyrene emulsion 40kg (8.0%), water 0.5kg (0.1%), calcium nitrite 1.5kg (0.3%), melamine series water reducer 0.5kg (0.1%) ;

[0092] (2) The template is installed on the production line, and a layer of PVA coil is laid in the template;

[0093] (3) pour the bottom mortar onto the formwork, and form a 10mm thick bottom layer through the height limit of the scraper on the production line;

[0094] (4) Lay a three-dimensional fiber fabric with a thickness of 200mm on the bottom layer, vibrate for 3 minutes through a vibrator under the production line, and set the bottom layer for 18 minutes;

[0095] (5) ...

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Abstract

The invention discloses a novel fiber reinforced composite heat insulation plate and a preparing method of the novel fiber reinforced composite heat insulation plate, wherein the novel fiber reinforced composite heat insulation plate comprises a decoration surface layer, a bottom layer and a heat insulation core layer; the heat insulation core layer is clamped between the decoration surface layer and the bottom layer; the decoration surface layer and the bottom layer are made of polymer modified mortar; the heat insulation core layer is manufactured by injecting inorganic foaming materials into three-dimensional fiber fabrics; the decoration surface layer is connected with the upper part of the heat insulation core layer; and the bottom layer is connected with the lower part of the heat insulation core layer. The composite heat insulation plate has the advantages that the heat isolation and heat preservation effects are good; the weight is light; the intensity is high; and the durability is high. The composite heat insulation plate can be used as a heat insulation roof plate or a heat insulation external wall plate and the like for a mainstream building.

Description

technical field [0001] The invention relates to the field of building materials, in particular to a novel fiber-reinforced composite thermal insulation board and a preparation method thereof. Background technique [0002] The most common traditional composite insulation board is "color steel polystyrene sandwich panel", which is a sandwich panel made of metal plate as the surface layer and polystyrene board as the core material. The same type of composite insulation board also has "color steel rock wool sandwich board", "color steel polyurethane sandwich board" and so on. These traditional insulation sandwich panels have some shortcomings: 1) low mechanical strength, especially low impact resistance; 2) poor corrosion resistance, especially in hot and humid environments; 3) the outer surface is monotonous Steel plates have poor touch and perception; 4) because the used insulation core material is a flammable material, there is a fire hazard. Contents of the invention [...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/80B32B13/04B32B13/14B32B37/02B32B37/15C04B28/04C04B28/06C04B38/02
Inventor 李清海刘志成张朋李东旭
Owner CHINA BUILDING MATERIALS ACAD
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