CN104231571A - Inflaming retarding thermal insulating film and preparation method thereof - Google Patents

Abstract

An inflaming retarding thermal insulating film comprises the following raw materials in parts by weight: 86-89 parts of polyethylene glycol terephthalate, 2-4 parts of fluorine glycol, 15-18 parts of nano titanium powder, 15-17 parts of nano nickel powder, 3-5 parts of ethylene bis stearamide and 10-13 parts of melamine polyphosphate. The polyethylene glycol terephthalate, the fluorine glycol, the nano titanium powder, the nano nickel powder, the ethylene bis stearamide and the melamine polyphosphate are reasonably compounded, so that the obtained film has good inflaming retarding performance and thermal insulating performance.

Description

Anti-flaming thermal-insulation film and preparation method thereof

Technical field

The invention belongs to thermal isolation film field, be specifically related to a kind of anti-flaming thermal-insulation film and preparation method thereof.

Background technology

In order to reach the object of heat insulation sun, people generally can carry out pad pasting on building glass or windshield.Thermal isolation film external has at present occupied China very big market because of its qualitative advantage, and even so, the quality of thermal isolation film also varies.Existing thermal isolation film is generally the multilayer film with difference in functionality and is composited, and its effect is also barely satisfactory, once meet fire hazard, first thermal isolation film can burn immediately and bring heavy losses to the lives and properties of people.

In sum, how to overcome the deficiencies in the prior art and become existing field problem demanding prompt solution.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art and propose a kind of anti-flaming thermal-insulation film and preparation method thereof, anti-flaming thermal-insulation film of the present invention has excellent anti-flaming thermal-insulation performance.

Technical scheme of the present invention is as follows:

Anti-flaming thermal-insulation film, comprises the following raw material according to mass fraction meter: polyethylene terephthalate 86-89 part, perfluoropolyether diol 2-4 part, nano titanium powder 15-18 part, nano-nickel powder 15-17 part, ethylene group bis-stearamides 3-5 part, Poly-o-aminophenol film 10-13 part.

Described anti-flaming thermal-insulation film, comprises the following raw material according to mass fraction meter: polyethylene terephthalate 87 parts, perfluoropolyether diol 3 parts, nano titanium powder 16 parts, nano-nickel powder 16 parts, ethylene group bis-stearamides 4 parts, Poly-o-aminophenol film 12 parts.

The preparation method of described anti-flaming thermal-insulation film, comprise the following steps: take each raw material according to quality proportioning, polyethylene terephthalate, perfluoropolyether diol, nano titanium powder, nano nickel, ethylene group bis-stearamides, Poly-o-aminophenol film are uniformly mixed, extrude by forcing machine, extruder temperature controls at 285-295 DEG C, namely obtains anti-flaming thermal-insulation film by calendering formation.

Beneficial effect: the present invention is by rationally composite to polyethylene terephthalate, perfluoropolyether diol, nano titanium powder, nano nickel, ethylene group bis-stearamides and Poly-o-aminophenol film, and gained film has excellent flame retardant resistance and thermal insulation.

Embodiment

Below in conjunction with embodiment, the present invention is described in further detail.

Embodiment 1

Anti-flaming thermal-insulation film, comprises the following raw material according to mass fraction meter: polyethylene terephthalate 86 parts, perfluoropolyether diol 2 parts, nano titanium powder 15 parts, nano-nickel powder 15 parts, ethylene group bis-stearamides 3 parts, Poly-o-aminophenol film 10 parts.

The preparation method of the present embodiment, comprise the following steps: take each raw material according to quality proportioning, polyethylene terephthalate, perfluoropolyether diol, nano titanium powder, nano nickel, ethylene group bis-stearamides, Poly-o-aminophenol film are uniformly mixed, extrude by forcing machine, extruder temperature controls, at 285 DEG C, namely to obtain anti-flaming thermal-insulation film by calendering formation.

This embodiment gained finished product is carried out Performance Detection, and detected result is in table 1.

Embodiment 2

Anti-flaming thermal-insulation film, comprises the following raw material according to mass fraction meter: polyethylene terephthalate 89 parts, perfluoropolyether diol 4 parts, nano titanium powder 18 parts, nano-nickel powder 17 parts, ethylene group bis-stearamides 5 parts, Poly-o-aminophenol film 13 parts.

The preparation method of the present embodiment, comprise the following steps: take each raw material according to quality proportioning, polyethylene terephthalate, perfluoropolyether diol, nano titanium powder, nano nickel, ethylene group bis-stearamides, Poly-o-aminophenol film are uniformly mixed, extrude by forcing machine, extruder temperature controls, at 295 DEG C, namely to obtain anti-flaming thermal-insulation film by calendering formation.This embodiment gained finished product is carried out Performance Detection, and detected result is in table 1.

Embodiment 3

Anti-flaming thermal-insulation film, comprises the following raw material according to mass fraction meter: polyethylene terephthalate 87 parts, perfluoropolyether diol 3 parts, nano titanium powder 16 parts, nano-nickel powder 16 parts, ethylene group bis-stearamides 4 parts, Poly-o-aminophenol film 12 parts.

The preparation method of the present embodiment, comprise the following steps: take each raw material according to quality proportioning, polyethylene terephthalate, perfluoropolyether diol, nano titanium powder, nano nickel, ethylene group bis-stearamides, Poly-o-aminophenol film are uniformly mixed, extrude by forcing machine, extruder temperature controls, at 290 DEG C, namely to obtain anti-flaming thermal-insulation film by calendering formation.

Embodiment 1-3 gained finished product is carried out performance test, the results are shown in following table 1:

Table 1 performance test data

As seen from the above table, gained finished product of the present invention has good heat-proof quality, and gained finished product of the present invention also has good flame retardant resistance in addition.

Above-described embodiment is only the explanation to product of the present invention; not any pro forma restriction is made to the present invention; do not departing within technical scheme scope of the present invention, any equivalent utilizing the technology contents of above-mentioned announcement to make simple transformation, all belongs to protection scope of the present invention.

Claims (3)

1. anti-flaming thermal-insulation film, it is characterized in that, comprise the following raw material according to mass fraction meter: polyethylene terephthalate 86-89 part, perfluoropolyether diol 2-4 part, nano titanium powder 15-18 part, nano-nickel powder 15-17 part, ethylene group bis-stearamides 3-5 part, Poly-o-aminophenol film 10-13 part.

2. anti-flaming thermal-insulation film according to claim 1, it is characterized in that, comprise the following raw material according to mass fraction meter: polyethylene terephthalate 87 parts, perfluoropolyether diol 3 parts, nano titanium powder 16 parts, nano-nickel powder 16 parts, ethylene group bis-stearamides 4 parts, Poly-o-aminophenol film 12 parts.

3. the preparation method of anti-flaming thermal-insulation film according to claim 1, it is characterized in that, comprise the following steps: take each raw material according to quality proportioning, polyethylene terephthalate, perfluoropolyether diol, nano titanium powder, nano nickel, ethylene group bis-stearamides, Poly-o-aminophenol film are uniformly mixed, extrude by forcing machine, extruder temperature controls at 285-295 DEG C, namely obtains anti-flaming thermal-insulation film by calendering formation.