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Foaming technology of inorganic nanoparticle modified polypropylene

An inorganic nano-particle and inorganic nano-particle technology, which is applied in the field of inorganic nano-particle modified polypropylene foaming process, can solve the problems of narrow temperature range and difficult foaming, and achieve the improvement of melt strength, uniform cell size, The effect of excellent dimensional stability

Inactive Publication Date: 2017-03-08
WUXI MINGSHENG STRONG BLOWER
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Therefore, in recent years, many countries have vigorously developed PP foaming materials. However, since PP is a semi-crystalline polymer, the temperature range that can be foamed (collectively referred to as the foaming temperature range) is narrow, only 4°C, and it is difficult to foam.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] A foaming process for inorganic nanoparticle modified polypropylene, comprising:

[0025] (1) The homogeneously mixed polypropylene PP and nano silicon dioxide are melt blended and extruded to obtain polypropylene / calcium carbonate particles with a diameter of 4mm and a length of 2mm;

[0026] (2) Put the polypropylene / nano-silica particles in the autoclave and fill it with CO 2 , heated up to the immersion temperature of 180°C, and continued to fill with CO 2 To the saturation pressure of 25MPa, and keep the pressure for 30min;

[0027] (3) Heating up to a foaming temperature of 105°C, keeping the pressure constant during the heating process, and keeping the temperature for 90 minutes;

[0028] (4) Release the pressure to normal pressure within 10 seconds, take out the foam and put it into the ice-water mixture for rapid cooling.

Embodiment 2

[0030] A foaming process for inorganic nanoparticle modified polypropylene, comprising:

[0031] (1) The homogeneously mixed polypropylene PP and nano-mica particles are melt blended and extruded to obtain polypropylene / nano-mica particles with a diameter of 2 mm and a length of 5 mm;

[0032] (2) Place the polypropylene / nano-mica in the autoclave and fill it with CO 2 , heated up to the infiltration temperature of 170°C, and continued to fill with CO 2 To the saturation pressure of 25MPa, and keep the pressure for 20min;

[0033] (3) Heating up to a foaming temperature of 152°C, keeping the pressure constant during the heating process, and keeping it warm for 40 minutes;

[0034] (4) Release the pressure to normal pressure within 10 seconds, take out the foam and put it into the ice-water mixture for rapid cooling.

Embodiment 3

[0036] A foaming process for inorganic nanoparticle modified polypropylene, comprising:

[0037] (1) Melting and blending extruding homogeneously mixed polypropylene PP and nano-silica to obtain polypropylene / nano-silica particles with a diameter of 2-4mm and a length of 2-5mm;

[0038] (2) Put the polypropylene / nano-silica particles in the autoclave and fill it with CO 2 , heated up to the soaking temperature of 175°C, and continued to fill with CO 2 To the saturation pressure of 22MPa, and keep the pressure for 50min;

[0039] (3) Heating up to a foaming temperature of 165°C, keeping the pressure constant during the heating process, and keeping it warm for 60 minutes;

[0040] (4) Release the pressure to normal pressure within 10 seconds, take out the foam and put it into the ice-water mixture for rapid cooling.

[0041] Examples 1-3 prove that the method of the present invention enhances the foaming ability of polypropylene and uniform cell size by adding nano-silica or ...

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Abstract

The invention discloses a foaming technology of inorganic nanoparticle modified polypropylene. The technology comprises the steps of 1, conducting melt blending extrusion on uniformly mixed polypropylene PP and inorganic nanoparticles to obtain polypropylene / nanoparticle granules of which diameter is 2-4 mm and length is 2-5 mm; 2, putting the polypropylene / nanoparticle granules into a high pressure reactor, pumping carbon dioxide into the high pressure reactor, raising the temperature to an infiltration temperature of 170-180 DEG C, continuing to pump carbon dioxide into the high pressure reactor until a saturation pressure reaches 20-28 MPa, and maintaining the pressure for 20-50 min; 3, reducing the high temperature to a foaming temperature of 105-165 DEG C, maintaining pressure constant in a temperature raising process, and conducting heat preservation for 40-90 min; 4, decompressing to an ordinary pressure in 10 seconds, taking out a foaming material to put into an ice and water mixture to be subjected to quenching. According to the technology, by adding nanosilicon dioxide or nano mica granules into PP, the foaming capacity of polypropylene is strengthened, and the size of a foam hole is uniform.

Description

technical field [0001] The invention relates to the technical field of automobile materials, in particular to a foaming process of inorganic nanoparticle modified polypropylene. Background technique [0002] Polymer foamed material refers to a polymer-based material with numerous cells inside, and can also be regarded as a composite material filled with gas. It has the characteristics of low density, good heat and sound insulation performance, and high specific strength. It is widely used in household daily necessities, vehicles, insulation materials, packaging materials, flame retardant materials, electrical appliances, sports facilities, electronic products and other industries. High-performance foam materials play an important role in military, aerospace and other cutting-edge fields. [0003] There are many kinds of polymer foam materials, among which the most widely used are polystyrene (PS) and polyethylene (PE) foam materials. However, there are many defects in PS ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L23/12C08K3/36C08K3/34C08J9/12B29C47/92B29C48/92
CPCC08K3/36B29C48/92B29C2948/9258B29C2948/92704C08J9/122C08J2203/06C08J2323/12C08K3/34C08K2201/011C08L23/12
Inventor 张达明
Owner WUXI MINGSHENG STRONG BLOWER
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