Flame-retardant bismaleimide resin and preparation method thereof

A technology of maleimide resin and bismaleimide, which is applied in the field of flame-retardant bismaleimide resin and its preparation, can solve the problem that the flame-retardant modification effect of polysiloxane is not fully reflected , reduced thermal stability and rigidity, large dielectric constant and loss, etc., to achieve the effect of environmentally friendly operation process, high flame retardancy and toughness, and outstanding dielectric properties

Inactive Publication Date: 2011-02-16
苏州亚傲鑫企业管理咨询有限公司
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  • Claims
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AI Technical Summary

Problems solved by technology

So far, the proposed modification methods mainly include: 1) Using the reaction of silanol and the active double bond of BMI or N-(4-hydroxyphenyl)maleimide to introduce the siloxane chain into bismaleimide Molecular structure, in order to achieve the purpose of modification through the prepolymerization reaction of the two, but the activity of the above reaction is not so high that the method is difficult, and because of the need to use a large amount of organic solvents, it is not suitable for environmentally friendly materials with increasing awareness of environmental protection development; 2) through NH 2 The Mike addition reaction between the end-capped polydimethylsiloxane and the active double bond of BMI realizes the modification of polysiloxane to BMI resin. This method improves the toughness of BMI resin and gives it a certain flame retardancy, but Due to the linear structure of polydimethylsiloxane, the thermal stability (glass transition temperature) and rigidity of the modified BMI are significantly reduced, and the flame-retardant modification effect of polysiloxane has not been fully reflected;3 ) using polysiloxane-modified BMI resins containing active aliphatic functional groups (epoxy groups or methacryloxy groups), this method improves its toughness, heat and humidity resistance and the compatibility of the two; but a large number The long-chain aliphatic polar groups also lead to higher dielectric constant and loss, lower heat resistance, and no significant improvement in flame retardancy
[0007] Based on the above, it can be seen that a common phenomenon in these existing modification methods is that it is difficult to modify on the basis of effectively synthesizing the respective advantages of polysiloxane and BMI resin

Method used

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  • Flame-retardant bismaleimide resin and preparation method thereof
  • Flame-retardant bismaleimide resin and preparation method thereof
  • Flame-retardant bismaleimide resin and preparation method thereof

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Effect test

Embodiment 1

[0036] Embodiment 1: This embodiment provides a kind of flame-retardant bismaleimide resin, and its preparation steps are as follows:

[0037] 1. Synthesis of polysiloxanes containing amino functional groups

[0038]1) Under stirring conditions, add 13.26g γ-aminopropyltriethoxysilane, 27.7g phenyltrimethoxysilane and 3.67g deionized water into a three-necked flask, and reflux at a constant temperature of 40°C for 2 hours to obtain solution A;

[0039] 2) Under stirring conditions, dissolve 32.98g of hexamethyldisilazane in a mixed solvent of 16.50mL of methanol and 33.00mL of pyridine to obtain solution B;

[0040] 3) Under stirring conditions, pour solution B into solution A at 60°C, and reflux for 6 hours at a constant temperature, and then distill under reduced pressure to obtain a crude product;

[0041] 4) After dissolving the crude product in dichloromethane, filter out the insoluble matter, and after vacuum distillation and vacuum drying, the polysiloxane containing ...

Embodiment 2

[0050] 1. Synthesis of amino-functional polysiloxanes

[0051] 1) Under stirring conditions, add 0.44g of γ-aminopropyltriethoxysilane, 39.20g of phenyltrimethoxysilane, and 5.50g of deionized water into the three-necked flask, and reflux at a constant temperature of 90°C for 8 hours to obtain a solution A;

[0052] 2) Under stirring conditions, dissolve 48.60 g of hexamethyldisiloxane in a mixed solvent of 21.60 mL of methanol and 10.80 mL of pyridine to obtain solution B;

[0053] 3) Under stirring conditions, pour solution B into solution A at 90°C, and reflux for 8 hours at a constant temperature, and obtain a crude product after vacuum distillation;

[0054] 4) After dissolving the crude product in dichloromethane, the insoluble matter was filtered off, and after vacuum distillation and vacuum drying, the polysiloxane containing amino functional groups was obtained.

[0055] 2. Preparation of flame retardant bismaleimide resin

[0056] By weight, 100 g of toluene-type ...

Embodiment 3

[0058] 1. Synthesis of amino-functional polysiloxanes

[0059] 1) Under stirring conditions, add 22.10g γ-aminopropyltriethoxysilane, 13.6g methyltrimethoxysilane, and 4.68g deionized water into a three-necked flask, and reflux at a constant temperature of 60°C for 5 hours to obtain solution A;

[0060] 2) Under stirring conditions, dissolve 48.16g of hexamethyldisilazane in a mixed solvent of 24.08mL of methanol and 24.08mL of pyridine to obtain solution B;

[0061] 3) Under stirring conditions, pour solution B into solution A at 70°C, and reflux for 7 hours at a constant temperature, and then distill under reduced pressure to obtain a crude product;

[0062] 4) After dissolving the crude product in dichloromethane, the insoluble matter was filtered off, and after vacuum distillation and vacuum drying, the polysiloxane containing amino functional groups was obtained.

[0063] 2. Preparation of flame retardant bismaleimide resin

[0064] By weight, 100 g of bismaleimide res...

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Abstract

The invention discloses flame-retardant bismaleimide resin and a preparation method thereof. The flame-retardant bismaleimide resin is prepared by uniformly mixing 100 weight parts of bismaleimide resin, 0 to 200 weight parts of allyl compound and 1 to 100 weight parts of amino functional group-containing polysiloxane at the temperature of between 90 and 200 DEG C. The resin has high flame retardance, toughness, heat resistance and dielectric property, can be used as a high-performance resin matrix, an adhesive, an insulating varnish and the like, has great application prospect in the highly technical fields of aerospace, electronic and electrical appliances, transportation and the like; and the preparation method of the resin has the characteristics of high applicability, environmental friendliness, simple operation process and the like.

Description

technical field [0001] The invention relates to a flame-retardant polymer material and a preparation method thereof, in particular to a flame-retardant bismaleimide resin and a preparation method thereof. Background technique [0002] Bismaleimide (BMI) is a class of bifunctional compounds with active end groups of double bonds. It has excellent high temperature resistance, radiation resistance, heat and humidity resistance, and good mechanical and electrical properties. It has been widely used in Aerospace, mechatronics, transportation and other fields. However, bismaleimide resin has the disadvantages of high brittleness and poor molding process, so it needs to be toughened and modified when it is used. There are mainly two kinds of existing toughening methods, one is to add diamines to extend the chain first, and then add epoxy resin, rubber, etc. to copolymerize with them; the other method is to copolymerize with diene compounds, which can greatly improve the toughness....

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08G81/00C08L61/14C08F283/00C08G77/26C08L79/08C08L83/08C08G73/10
Inventor 梁国正卓东贤顾嫒娟胡江涛袁莉
Owner 苏州亚傲鑫企业管理咨询有限公司
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