Preparation method of benzoxazine resin

A technology of benzoxazine and resin, which is applied in the field of preparation of benzoxazine resin, can solve the problems of large amount of waste water, wide molecular weight distribution of benzoxazine resin, time-consuming and labor-intensive problems, and achieve the goal of improving adsorption rate and adsorption capacity Effect

Active Publication Date: 2018-09-21
成都科宜高分子科技有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0006] The purpose of the present invention is to solve the technical problems that the molecular weight distribution of the benzoxazine resin prepared by the existing benzoxazine preparation process is wide, and the catalyst needs to be removed through multiple washing processes after the reaction, which is time-consuming and laborious, and the amount of waste water is large.

Method used

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  • Preparation method of benzoxazine resin
  • Preparation method of benzoxazine resin

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Step S1, the preparation of the activated carbon catalyst specifically includes steps S11 and S12.

[0030] S11. First, process the solid benzoxazine resin into a spherical shape; then raise the temperature to 300°C at 0.2°C / min in the air atmosphere, and keep the temperature constant for 2h, and carry out oxidation treatment; after oxidation, under the protection of high-purity nitrogen, after oxidation The temperature of the resin balls was raised to 800°C at 5°C / min, and kept at a constant temperature for 30 minutes for carbonization treatment, and finally activated with water vapor for 40 minutes to obtain nitrogen-containing spherical activated carbon.

[0031] S12. Add nitrogen-containing spherical activated carbon particles into a sodium hydroxide solution with a mass concentration of 50% and soak for 24 hours, filter with suction, dry the filter residue at 150°C for 2 hours, put it into a desiccator to cool, and obtain a sodium hydroxide with a mass content of 30...

Embodiment 2

[0037] Step S1, the preparation of the activated carbon catalyst specifically includes steps S11 and S12.

[0038] S11. First, process the solid benzoxazine resin into a spherical shape; then raise the temperature to 300°C at 0.2°C / min in the air atmosphere, and keep the temperature constant for 2h, and carry out oxidation treatment; after oxidation, under the protection of high-purity nitrogen, after oxidation The temperature of the resin balls was raised to 800°C at 5°C / min, and kept at a constant temperature for 30 minutes for carbonization treatment, and finally activated with water vapor for 40 minutes to obtain nitrogen-containing spherical activated carbon.

[0039] S12. Add nitrogen-containing spherical activated carbon particles into a calcium hydroxide solution with a mass concentration of 50% and soak for 24 hours, filter with suction, dry the filter residue at 150° C. for 2 hours, put it into a desiccator to cool, and obtain a calcium hydroxide with a mass content o...

Embodiment 3

[0045] Step S1, preparation of activated carbon catalyst: add the purchased activated carbon particles into a magnesium hydroxide solution with a mass concentration of 50% and soak for 24 hours, filter with suction, dry the filter residue at 150°C for 2 hours, put it into a desiccator to cool, and obtain hydrogen oxide An activated carbon catalyst with a magnesium mass content of 30%.

[0046] Step S2, add the solvent toluene, phenol, paraformaldehyde, and diaminodiphenylmethane to the reaction kettle in sequence, keep the reaction kettle at 40°C, start stirring, and add the activated carbon catalyst prepared in step S1, wherein the amount of toluene added accounts for 10% of the reaction kettle 30% of the total mass of all reaction materials in the mixture, the molar ratio of phenol:paraformaldehyde:diaminodiphenylmethane is 2:4:1, and the catalyst dosage is 5% of the mass of phenol.

[0047] Step S3: After adding the catalyst, start to raise the temperature, and stop heating...

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Abstract

The invention discloses a preparation method of benzoxazine resin. The preparation method comprises the following steps: S1, adding activated carbon particles into an alkali solution for soaking to obtain an activated carbon catalyst adsorbing alkali; S2, adding a solvent toluene, phenolic compounds, aldehyde and amine compounds into a reaction still in sequence, keeping the temperature of the reaction still at 40 DEG C, stirring and adding the activated carbon catalyst; S3, raising the temperature to 70 DEG C and then stopping heating; continuously raising the temperature of reaction liquid by waste heat; when the temperature reaches 85 DEG C, carrying out reflux reaction on the reaction liquid for 2 to 6 hours; S4, replacing the reaction still with an atmospheric distillation device, raising the temperature to 110 DEG C for distilling, returning the toluene in distillate to the inner part of the reaction still, distilling until no water is drained from the reaction still, cooling anddischarging; S5, filtering the discharged material, and obtaining filtrate, namely a toluene solution containing benzoxazine; washing and drying filter residues and recycling the activated carbon catalyst. According to the preparation method of the benzoxazine resin, disclosed by the invention, the catalyst alkali is immobilized in activated carbon, so that the catalyst can be recycled and a washing operation step in an existing preparation method is omitted.

Description

technical field [0001] The invention belongs to the field of polymer chemistry, and in particular relates to a preparation method of benzoxazine resin. Background technique [0002] The benzoxazine monomer is a benzo six-membered heterocyclic compound synthesized from phenolic compounds, primary amine compounds and aldehydes under the action of a catalyst. It was first discovered in the Mannich reaction that ring-opening polymerization can occur under the action of heating and / or a catalyst to form a spatial network structure. The benzoxazine resin does not emit small molecules during the molding and curing process, the product has low porosity and close to zero shrinkage; it has excellent high temperature resistance, and the glass transition temperature (Tg) is above 150 °C. After ring-opening polymerization, benzoxazine has good electrical insulation properties. Benzoxazine resin can be cured and formed under appropriate temperature conditions, and has good mechanical pr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08G14/073C01B32/318C01B32/336
CPCC01B32/318C01B32/336C08G14/06Y02P20/129Y02P20/584
Inventor 张锋王翔宇高英菊
Owner 成都科宜高分子科技有限公司
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