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A kind of containing graphene/nanometer tio 2 Epoxy resin of composite material and preparation method thereof

A composite material and epoxy resin technology, applied in the field of composite materials, can solve the problems of easy agglomeration, even stacking and loss of graphene, and achieve the effects of improved bending performance, enhanced impact resistance and simple production process

Active Publication Date: 2021-07-13
QINGDAO TECHNOLOGICAL UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, due to the interlayer van der Waals force, graphene is easy to agglomerate or even stack, thus losing the advantages of super large specific surface area and two-dimensional structure.

Method used

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  • A kind of containing graphene/nanometer tio <sub>2</sub> Epoxy resin of composite material and preparation method thereof
  • A kind of containing graphene/nanometer tio <sub>2</sub> Epoxy resin of composite material and preparation method thereof
  • A kind of containing graphene/nanometer tio <sub>2</sub> Epoxy resin of composite material and preparation method thereof

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preparation example Construction

[0034] The embodiment of the present invention also relates to the preparation method of the epoxy resin, the method comprises using the above-mentioned composite material, bisphenol A and epichlorohydrin as reactants, using sodium hydroxide as a catalyst to perform ring-opening and ring-closing reactions, and then Extraction with benzene and isolation of epoxy resin. Specifically include the following steps:

[0035] (1) Graphene / nano-TiO 2 Stir and disperse the composite material in epichlorohydrin, then add bisphenol A, and heat to 75-80°C in a water bath after stirring well.

[0036] In one embodiment of the present invention, the graphene / nano-TiO 2 The mass ratio of the composite material, bisphenol A and epichlorohydrin is (0.01-0.5):(20-30):(20-40).

[0037] (2) Add sodium hydroxide solution in the reaction system that step (1) obtains, stop heating after reacting 1.5~2 hours;

[0038] In one embodiment of the present invention, graphene / nano-TiO 2 The composite m...

Embodiment 1

[0057] Preparation of hyperdispersed porous graphene / nano-TiO 2 Composite materials, including the following steps:

[0058] (1) 1g of graphite powder is mixed with 1g of sodium nitrate to obtain a mixture.

[0059] (2) In an ice-water bath, slowly add the mixture obtained in step (1) to 20 ml of concentrated sulfuric acid, stir and mix, slowly add 2 g of potassium permanganate, and continue stirring for 20 min.

[0060] (3) The reaction system obtained in step (2) was removed from the ice-water bath, placed in a water bath and heated to 35°C, and kept for 30 minutes.

[0061] (4) Add a hydrogen peroxide solution with a mass concentration of 30% to the reaction system obtained in step (3), and after reacting for 2 hours, no bubbles are generated in the system at this time. The reaction solution was suction-filtered with a microporous membrane, and the precipitate obtained by the suction filtration was washed with deionized water for several times until no sulfate was detecte...

Embodiment 2

[0066] Preparation of hyperdispersed porous graphene / nano-TiO 2 Composite materials, including the following steps:

[0067] (1) 1.5g of graphite powder is mixed with 1.5g of sodium nitrate to obtain a mixture.

[0068] (2) In an ice-water bath, slowly add the mixture obtained in step (1) into 25ml of concentrated sulfuric acid, stir and mix, slowly add 3g of potassium permanganate, and continue stirring for 20min.

[0069] (3) The reaction system obtained in step (2) was removed from the ice-water bath, placed in a water bath and heated to 35°C, and kept for 40 minutes.

[0070] (4) Add a hydrogen peroxide solution with a mass concentration of 30% to the reaction system obtained in step (3), and after reacting for 2 hours, no bubbles are generated in the system at this time. The reaction solution was suction-filtered with a microporous membrane, and the precipitate obtained by the suction filtration was washed with deionized water for several times until no sulfate was dete...

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Abstract

The present invention relates to a kind of containing graphene / nanometer TiO 2 Composite epoxy resin, the graphene / nano-TiO 2 The mass percent content of the composite material in the epoxy resin is 0.02%-1%. The present invention also relates to a preparation method of the epoxy resin. The invention adopts the self-developed organic precipitation method to carry out interlayer exfoliation of graphene to obtain TiO 2 / graphene composite material, and then combine the material with the preparation process of epoxy resin to prepare hyperdisperse, high-performance nano-TiO containing graphene / nano-TiO in one step 2 Composite epoxy resin. The method has the advantages of low cost, simple production process and low equipment requirements, and can be mass-produced.

Description

technical field [0001] The invention relates to the technical field of composite materials, in particular to a composite material containing graphene / nano-TiO 2 An epoxy resin for a composite material, and a method for preparing the epoxy resin. Background technique [0002] Bisphenol A epoxy resin has good manufacturability, can be used in conjunction with various curing agents and additives, can design a variety of formulas to meet various requirements, has the characteristics of low pressure molding, and stable performance of cured products. And because of its low cost and large output, it is favored by users. However, bisphenol A epoxy resin has disadvantages such as weak tensile strength, poor impact resistance, poor toughness, and poor heat resistance, which limit its application scenarios. People can only modify bisphenol A epoxy resin to improve its mechanical properties. [0003] The emergence of nanoparticles provides a new idea for the modification of bisphenol...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C08G59/06C08K3/22C08K3/04
CPCC08G59/063C08K3/22C08K2003/2241C08K2201/011C08K3/042
Inventor 郭思瑶赵铁军韩松戴建国牟犇
Owner QINGDAO TECHNOLOGICAL UNIVERSITY