High-temperature-resistant foamed plastic composition and preparation method thereof

A foamed plastic and composition technology, which is applied in the field of high temperature resistant foamed plastic composition and its preparation, can solve the problems of increased viscosity of blended resin, poor processability, unfavorable application of cyanate ester foam, etc., and achieves a cell structure. The effect of uniformity and lower production cost

Inactive Publication Date: 2015-05-20
INST OF CHEM MATERIAL CHINA ACADEMY OF ENG PHYSICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, some thermoplastic resins with relatively large molecular weight (such as polyethersulfone, etc.) are difficult to blend with cyanate, especially when the content of thermoplastic resin is high, the viscosity of the blended resin will increase and the processability will deteriorate.
[0005] U.S. Patent US8026292 and European Patent EP2028212 have reported a kind of foaming method of cyanate ester foam, will " water and ethanol generator ", promptly can decompose the compound that produces water or ethanol at certain temperature, as hydrated salt, oxonium compound , siloxane containing OH and OR, etc., mixed with cyanate in different proportions, using the CO produced by the reaction of water and ethanol with cyanate 2 As a foaming agent for foam molding, the foaming temperature can be reduced to between 100°C and 160°C, but this method will produce a large amount of solid inorganic residues during the foaming process, and these solid inorganic residues will seriously affect the cyanic acid. Properties of ester foams, not conducive to the application of cyanate foams

Method used

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  • High-temperature-resistant foamed plastic composition and preparation method thereof
  • High-temperature-resistant foamed plastic composition and preparation method thereof
  • High-temperature-resistant foamed plastic composition and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0064] Put 94.74 parts of bisphenol A type cyanate resin and 0.01 part of dibutyltin dilaurate into a 250ml beaker and mix evenly, then move it into an oil bath at 140°C for prepolymerization, and keep stirring with a mechanical stirrer at a stirring speed of 500 r / min, add 0.8 parts of surfactant AK8807 after 90 minutes, add 4.45 parts of azodicarbonamide after 40 minutes, stir at 800 r / min for 10 minutes, pour into a mold with a temperature of 150°C for foaming, and then Curing in an oven for 1 hour, followed by curing in ovens at 180° C., 200° C. and 220° C. for 2 hours respectively, then naturally cooling to room temperature, and demoulding to obtain a high temperature resistant foam plastic composition.

[0065] The density of the high temperature resistant foam plastic composition is 0.131g / cm 3 , the compressive strength is 1MPa, the compressive modulus is 33 MPa, the initial decomposition temperature is 338.5°C, the glass transition temperature is 245°C, and the diele...

Embodiment 2

[0068] Put 93.45 parts of bisphenol E type cyanate resin, 0.93 parts of surfactant AK8807 and 0.01 part of dibutyltin dilaurate into a 250ml beaker and mix evenly, then move it into a 140°C oil bath for prepolymerization, and keep stirring with a mechanical stirrer , the stirring speed is 500 r / min, after 150 minutes, add 5.61 parts of azodicarbonamide, stir at 900 r / min for 10 minutes, pour into a mold with a temperature of 150°C for foaming, and then solidify in an oven at 150°C 1h, and then solidified in an oven at 180°C and 200°C for 2h, then naturally cooled to room temperature, and demolded to obtain a density of 0.105g / cm 3 The high temperature resistant foamed plastic composition has a glass transition temperature of 238°C.

Embodiment 3

[0070] Put 97.08 parts of bisphenol E cyanate resin, 0.97 parts of surfactant AK8807 and 0.01 part of dibutyltin dilaurate into a 250ml beaker and mix evenly, then move it into an oil bath at 140°C for prepolymerization, and keep stirring with a mechanical stirrer , the stirring speed is 500 r / min, after 150 minutes, add 1.94 parts of azodicarbonamide, stir at 900 r / min for 10 minutes, pour into a mold with a temperature of 150°C for foaming, and then solidify in an oven at 150°C 1h, and then solidified in an oven at 180°C and 200°C for 2h, then naturally cooled to room temperature, and demolded to obtain a density of 0.451g / cm 3 High temperature resistant foam plastic composition.

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Abstract

The invention provides a high-temperature-resistant foamed plastic composition and a preparation method thereof. The high-temperature-resistant foamed plastic composition comprises 30%-99% of cyanate ester resin, 0%-60% of epoxy resin, 0%-10% of a catalyst, 0.01%-10% of a surface active agent, 0.01%-10% of a foaming agent and 0%-40% of filler. The preparation method provided by the invention comprises the following steps: reacting cyanate ester resin with epoxy resin at a certain temperature to synthesize a prepolymer; adding the surfactant, the foaming agent, the filler and the like into the prepolymer, uniformly mixing, pouring the mixture into a die preheated to a certain temperature to be foamed, and curing, cooling and demoulding to obtain the high-temperature resistant foamed plastic composition. The high-temperature resistant foamed plastic composition prepared by adopting the method disclosed by the invention has excellent heat-resistant performance and mechanical property, and also has good dielectric property, and the requirements of thermal insulation and heat preservation, structural support and microwave absorption at a high temperature of 150 DEG C-200 DEG C are met.

Description

technical field [0001] The invention relates to a high temperature resistant foamed plastic composition and a preparation method thereof. Background technique [0002] Polymer foam is a composite material filled with gas. Due to its low density and light weight, it is often used in thermal insulation, heat insulation, energy absorption and other fields. However, traditional polymer foams, such as polyethylene (PE), polystyrene (PS), polyurethane (PUR), phenolic resin (PF), etc., have been unable to achieve strength, stiffness, chemical and physical stability, and heat resistance. It meets the requirements of special fields such as aviation and aerospace for the performance of foamed plastics. Although polyimide foams (such as PMI, PEI, etc.) have good flame retardancy, high and low temperature resistance, good dielectric properties and mechanical properties, etc., However, the high production cost determines that it is difficult to develop and use on a large scale, so it is...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L79/04C08L63/00C08L63/02C08K13/04C08K3/36C08K7/24C08K3/04C08K7/14C08K7/06C08K3/34C08J9/10
CPCC08L79/04C08G73/0644C08J9/103C08J2203/04C08J2205/052C08J2363/00C08J2379/04C08J2463/00C08J2479/04C08K3/08C08K7/24C08K2003/0856C08K2201/011C08L63/00C08L2201/08C08L2203/14
Inventor 田春蓉范纯纯王建华常翩翩陈可平梁书恩贾晓蓉
Owner INST OF CHEM MATERIAL CHINA ACADEMY OF ENG PHYSICS
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