A kind of low temperature resistant epoxy resin material and preparation method

Abstract

The present invention proposes a low-temperature-resistant epoxy resin material and a preparation method thereof. The material is composed of epoxy resin, polyaryl ether sulfone, graphene and a curing agent. The graphene and polyaryl ether sulfone of the present invention are Aryl ether sulfone has a synergistic effect. Graphene regulates the phase separation degree of polyaryl ether sulfone and epoxy resin during the curing process, so that the phase structure of the composite material stays in the "double continuous phase structure" during the curing process. , so that the epoxy resin composite material has good ultra-low temperature toughness; the present invention achieves a synergistic effect between graphene and polyaryl ether sulfone by adjusting the proportion and content of various components and obtains a greatly improved comprehensive low temperature resistance performance The epoxy resin material, that is, the epoxy resin material of the present invention has the advantages of high mechanical properties and excellent thermal stability at the temperature of liquid nitrogen, and is easy to manufacture and process.

Description

Technical field [0001] The present invention relates to a low temperature epoxy resin material and a preparation method, which belongs to the technical field of composite materials. Background technique [0002] The epoxy resin is widely used in the field of aerospace, mechanical, etc., in the field of aerospace, mechanical, etc. in the field of aerospace, mechanical, etc. in its excellent bonding properties, heat resistance, corrosion resistance, good mechanical properties, dimensional stability, and corrosion resistance. The molecular chain has a three-dimensional crosslinked network structure, thereby having a large brittleness, poor fatigue resistance, and poor impact toughness, especially in ultra-low temperature, the epoxy resin is more susceptible to cracking, impact resistance and stress performance. The effective means of solving this problem is to make the epoxy resin flexible and flexible. The method is mainly physically added to chemical modification, or the combinati...

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Problems solved by technology

[0002] Epoxy resin is widely used in aerospace, machinery and other industrial fields due to its excellent bonding performance, heat resistance, corrosion resistance, good mechanical properties, dimensional stability and manufacturability. The molecular chain has a three-dimensional cross-linked network structure, so there are disadvantages such as high brittleness, poor fatigue resistance, and poor impact toughness. , the effective means to solve this problem is to make the epoxy resin flexible. The flexible methods mainly include physical addition method and chemical modification method, or a combination of the two. The physical addition method is mainly to add toughening agent or plasticizer The chemical modification method is to modify the chemical structure of the curing agent or epoxy resin, but there are still problems in the existing prepared epoxy resin or its composite materials, which cannot maintain its high impact resistance and Defects in stress resistance limit its application in some fields

[0003] In the prior art, there are reports about adopting graphene to modify epoxy resin. Because the unique two-dimensional crystal structure of graphene endows it with excellent mechanical, thermal, optical, electrical and other properties, graphene has a good effect on epoxy resin. Modification can improve the dielectric properties, thermal stability and flame retardancy of epoxy resin, but in the above modification, the low temperature resistance of epoxy resin cannot be improved

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