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Method for in-situ preparation of silicone rubber composite material

A composite material and in-situ preparation technology, which is applied in the field of emulsion polymerization, can solve the problems of polymer emulsion product instability, environmental pollution, cost increase, etc., and achieve the effect of avoiding loose interface bonding, avoiding easy agglomeration, and long operating cycle

Active Publication Date: 2014-08-06
PETROCHINA CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This technology uses a large amount of organic solvents, which is likely to cause environmental pollution and increased costs. In addition, from the perspective of fuel economy, the conjugated diene polymer obtained by this technology cannot meet the needs of practical applications.
[0009] Since organosilanes are easily hydrolyzed in the water phase, which leads to the instability of polymer emulsion products, there are few relevant research reports at present. This patent adopts a low-temperature in-situ emulsion polymerization method to prepare silicone rubber compound composite materials.

Method used

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  • Method for in-situ preparation of silicone rubber composite material
  • Method for in-situ preparation of silicone rubber composite material
  • Method for in-situ preparation of silicone rubber composite material

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Embodiment 1~8

[0050] Add 200 parts of water, emulsifier, monovinylarene monomer and molecular weight regulator tertiary dodecyl mercaptan in sequence in a 10L polymerization kettle, and pass nitrogen gas to test the pressure. After confirming that there is no leakage in the polymerization kettle, replace it with nitrogen several times; Then add organosiloxane monomers and conjugated diene monomers containing carbon-carbon unsaturated bonds; start the polymerization tank stirrer, and add 0.05 parts of formaldehyde sodium bisulfoxylate and reducing agent respectively in the reaction tank; Put cold water into the kettle jacket to lower the temperature. When the temperature in the polymerization kettle drops to the reaction temperature, add an oxidizing agent to initiate the reaction; Parts, the glue is condensed after degassing, and the product of the present invention is obtained after hot air drying. The sample polymerization formula, reaction process conditions and test results are shown in...

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Abstract

The invention relates to a method for in-situ preparation of a silicone rubber composite material. The method comprises the steps of: adding water, an emulsifier, a monovinylarene monomer and a molecular weight regulator into a reaction vessel in order, and under the protection of N2, adding a carbon-carbon unsaturated bond-containing organosilicon monomer and a conjugated diene; initiating a polymerizing kettle for stirring, adjusting the temperature of a reaction system inside the polymerizing kettle to a polymerization reaction temperature, then adding an initiator and starting reaction, keeping a polymerization temperature at 5-30 DEG C, controlling a polymerization reaction time at 7-12h, and when a total monomer conversion rate reaches 60-70%, adding a terminator to terminate the polymerization reaction; subjecting latex to degassing, agglomeration and drying. In terms of 100% of monomer total mass, the conjugated diene accounts for 10-70%, the monovinylarene accounts for 10-45%, and the carbon-carbon unsaturated organosilicon monomer accounts for 2-45%.

Description

technical field [0001] The invention belongs to the technical field of macromolecule chemical synthesis, and relates to a method for preparing silicone rubber composite materials, in particular to an emulsion polymerization method for preparing silicone rubber composite materials in situ. Background technique [0002] The in-situ polymerization method refers to the method of directly adding unsaturated organosilicon compounds to the monomers for rubber preparation in the polymerized state, and strengthening the modified rubber through in-situ hybridization. This method can disperse the silicon-containing dispersed phase in the rubber matrix in nanometer size through chemical bonds, thereby improving the tearing performance of the product, reducing heat generation, and improving the adhesive performance of the rubber compound and other parts in the composite product. Since silicon-modified rubber exhibits good low rolling resistance and wet skid resistance in tire application...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C08F236/10C08F236/08C08F236/06C08F212/08C08F230/08C08F2/24C08F4/40
Inventor 马朋高赵志超李晓艳梁滔龚光碧陈建刚胡育林郑红兵桂强张元寿周雷钟启林
Owner PETROCHINA CO LTD
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