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A preparation method of magnesium oxide combined with rosin modified phenolic resin composite insulation material

A composite thermal insulation material and rosin modification technology, applied in the field of high temperature resistant composite materials, can solve the problems of insufficient ablation resistance, poor thermal insulation effect, weak thermal insulation performance, etc., and achieve small thermal conductivity, good thermal insulation performance, High heat retention effect

Inactive Publication Date: 2020-04-03
苏州仲勉装饰有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Problems existing in thermal insulation composite materials in existing building materials: the ablation resistance of the product is not high enough; the thermal insulation effect is poor; the initial decomposition temperature of the existing product is low; the thermal insulation performance is weak

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] A preparation method of magnesium oxide combined with rosin modified phenolic resin composite insulation material, said preparation method comprising the following steps:

[0019] (1) Weigh 20 parts by mass of magnesium oxide, 50 parts by mass of rosin modified phenolic resin, 10 parts by mass of Portland cement, 5 parts by mass of modified expanded perlite, 4 parts by mass of sepiolite, and 40 parts by mass of slag wool , 10 parts by mass of wollastonite powder, 3 parts by mass of mica powder, 7 parts by mass of calcite powder, 4 parts by mass of white carbon black, 20 parts by mass of vegetable oil fatty acid and 6 parts by mass of ammonium dihydrogen phosphate for subsequent use;

[0020] (2) Put magnesium oxide, modified expanded perlite, sepiolite, wollastonite powder, mica powder and calcite powder into a sand mill to grind to a fineness of 30 μm;

[0021] (3) Add vegetable oil fatty acid to rosin modified phenolic resin, heat to 90°C to melt into glue;

[0022] ...

Embodiment 2

[0026] A preparation method of magnesium oxide combined with rosin modified phenolic resin composite insulation material, said preparation method comprising the following steps:

[0027] (1) Weigh 30 parts by mass of magnesium oxide, 70 parts by mass of rosin modified phenolic resin, 13 parts by mass of Portland cement, 8 parts by mass of modified expanded perlite, 7 parts by mass of sepiolite, and 60 parts by mass of slag wool , 15 parts by mass of wollastonite powder, 8 parts by mass of mica powder, 9 parts by mass of calcite powder, 7 parts by mass of white carbon black, 40 parts by mass of vegetable oil fatty acid and 10 parts by mass of ammonium dihydrogen phosphate for subsequent use;

[0028] (2) Put magnesium oxide, modified expanded perlite, sepiolite, wollastonite powder, mica powder and calcite powder into a sand mill to grind to a fineness of 40 μm;

[0029] (3) Add vegetable oil fatty acid to rosin modified phenolic resin, heat to 110 ℃ to melt into glue;

[0030...

Embodiment 3

[0034] A preparation method of magnesium oxide combined with rosin modified phenolic resin composite insulation material, said preparation method comprising the following steps:

[0035] (1) Weigh 25 parts by mass of magnesium oxide, 60 parts by mass of rosin modified phenolic resin, 12 parts by mass of Portland cement, 6 parts by mass of modified expanded perlite, 5 parts by mass of sepiolite, and 50 parts by mass of slag wool , 12 parts by mass of wollastonite powder, 5 parts by mass of mica powder, 8 parts by mass of calcite powder, 6 parts by mass of white carbon black, 30 parts by mass of vegetable oil fatty acid and 8 parts by mass of ammonium dihydrogen phosphate;

[0036] (2) Put magnesium oxide, modified expanded perlite, sepiolite, wollastonite powder, mica powder and calcite powder into a sand mill to grind to a fineness of 35 μm;

[0037] (3) Add vegetable oil fatty acid to rosin modified phenolic resin, heat to 100 ℃ to melt into glue;

[0038] (4) Add the powder...

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PUM

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Abstract

The invention discloses a preparation method of a magnesia combined rosin modified phenolic resin composite heat insulating material, and belongs to the technical field of the preparation of high-temperature-resistant composite materials. The preparation method comprises the following steps of (1), putting organic silicon and magnesia into a sand mill and grinding; (2), crushing boron phenolic resin, adding ethanol and confecting to be boron phenolic resin glue liquor; (3), adding the organic silicon and the magnesia in the step (1) into the glue liquor in the step (2), adding a drier and uniformly agitating; (4), finally cutting PAN (Polyacrylonitrile)-based 1K plain carbon cloth into a cloth piece of 1,000mm*1,000mm, putting into mixed liquor which is uniformly agitated in the step (3) and placing at a ventilating and drying place; (5), cutting the dried cloth piece to be in a size of 200mm*200mm, putting into a baking box, pre-baking, taking out, then paving layers, carrying out die pressing and finally preparing to obtain a magnesia modified boron phenolic resin high-temperature-resistant composite material by adopting a lamination molding process. The preparation method has advantages that production raw materials are cheap and easily obtained, the emissions of the three wastes do not exist in industrial production, the ablation resistance is high, the mechanical performance is good, and the like.

Description

technical field [0001] The invention belongs to the technical field of high-temperature-resistant composite materials, and in particular relates to a preparation method of magnesium oxide combined with rosin-modified phenolic resin composite thermal insulation material. Background technique [0002] Wall insulation refers to a type of insulation material used for building walls. According to the location of use, it can be divided into: exterior wall insulation materials, interior wall insulation materials, and roof insulation materials; according to the internal components of insulation materials, it can be divided into: inorganic insulation materials materials and organic insulation. External wall insulation is divided into: silicate insulation material, ceramic insulation material, rubber powder polystyrene particles, steel mesh cement foam board (Shule board), extruded board XPS, hard foam polyurethane on-site spraying, hard foam polyurethane insulation board , Foamed ce...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B28/10C04B111/28
CPCC04B28/10C04B2111/28C04B2201/32C04B24/302C04B7/02C04B14/185C04B14/042C04B14/46C04B14/043C04B14/20C04B14/28C04B14/06C04B24/08C04B22/16
Inventor 周琴
Owner 苏州仲勉装饰有限公司