Preparation method of continuous alumina fiber-reinforced aluminum oxide ceramic matrix composite material

A technology of alumina fiber and alumina ceramics is applied in the field of preparation of continuous alumina fiber reinforced alumina ceramic matrix composite materials, which can solve the problems of weakening the performance of composite materials, speeding up fiber creep, not anti-oxidation, etc., and achieving simplified and denser chemical process, increase wettability, and facilitate the effect of shaping

Active Publication Date: 2017-05-24
AVIC COMPOSITES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Among the above three interface designs, among them, the process of depositing C and BN interface is relatively mature, but it is more suitable for non-oxide composite materials, because C and BN themselves are not anti-oxidation, and the interface of oxide composite materials will not allow composite materials. The material has been used for a long time in an oxidizing environment, which violates the original intention of preparing the oxide composite material; and for the interface design of preparing the matrix into a porous structure, although the structure of the porous matrix is ​​conducive to the improvement of the damage tolerance of the composite material, its external load The transmission will be significantly reduced, resulting in a decrease

Method used

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Examples

Experimental program
Comparison scheme
Effect test

preparation example Construction

[0035] 1. Preparation of fiber fabric surface coating

[0036]According to the component size requirements, the alumina fiber fabric of a certain size is pre-cut, and the fiber fabric is vacuum-impregnated in the alumina organic polymer precursor. After the impregnation is completed, the fiber fabric is placed in a vacuum oven for solvent removal. The organic polymer precursor is treated at high temperature in a muffle furnace after curing on the surface of the fiber fabric. Repeat the process of impregnating the precursor-curing-cracking the fiber fabric until the desired thickness of the coating is obtained.

[0037] 2. Preparation of composite matrix

[0038] 1) Preparation of matrix green body skeleton

[0039] The alumina ceramic powder, solvent, dispersant, and binder are placed in a ball mill tank in a certain proportion and ball milled to obtain a uniformly dispersed ceramic powder slurry. Brush the slurry on the surface of the coated fiber fabric obtained in step (...

specific Embodiment 1

[0045] Arrange the two-dimensionally woven alumina fibers in the polyaluminoxane solution for vacuum impregnation. After impregnation, place the fiber fabric in a vacuum oven for solvent removal treatment. After the precursor is cured on the surface of the fiber fabric, place it in a muffle furnace Treat at 500°C for 1h. Repeat the above precursor impregnation-curing-cracking process once, and then perform impregnation and curing again. The obtained fiber fabric with organic precursor coating is ready for use.

[0046] 500g of alumina ceramic powder, 190ml of deionized water, 5g of ammonium polyacrylate, and 15ml of polyvinyl alcohol solution were placed in a ball mill and mixed evenly by ball milling to obtain a uniformly dispersed slurry of ceramic powder. Brush the slurry on the surface of the coated fiber fabric obtained above. After the fiber fabric is laminated in the mold, put it into a vacuum bag to apply pressure, and then put it into a freezing device for freezing a...

specific Embodiment 2

[0048] The two-dimensionally woven alumina fibers are placed in a polyziroxane solution for vacuum impregnation. After the impregnation, the fiber fabric is placed in a vacuum oven for solvent removal treatment. After the precursor is cured on the surface of the fiber fabric, it is placed in a muffle furnace. Treat at 500°C for 1h. Repeat the above precursor impregnation-curing-cracking process twice, and then perform one impregnation and curing. The obtained fiber fabric with organic precursor coating is ready for use.

[0049] 500g of alumina ceramic powder, 150ml of deionized water, 4g of ammonium polyacrylate, and 12ml of polyvinyl alcohol solution were placed in a ball mill and mixed evenly by ball milling to obtain a uniformly dispersed slurry of ceramic powder. Brush the slurry on the surface of the coated fiber fabric obtained above. After the fiber fabric is laminated in the mold, put it into a vacuum bag to apply pressure, and then put it into a freezing device for ...

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Abstract

The invention belongs to a continuous alumina fiber-reinforced aluminum oxide ceramic matrix composite material preparation technology and relates to a preparation method of a continuous alumina fiber-reinforced aluminum oxide ceramic matrix composite material. Firstly, an oxide organic polymer precursor is adopted as a raw material, a porous oxide ceramic coating is prepared through PIP process to serve as a fiber and matrix interface in the composite material, then a freeze drying process of aluminum oxide ceramic slurry is utilized to obtain a porous aluminum oxide matrix green body framework provided with three-dimensional network through holes, the oxide organic polymer precursor is utilized to repeatedly dip the porous aluminum oxide matrix green body framework to obtain a dense matrix green body, and finally the composite material green body is sintered to obtain the high-performance composite material. The freeze drying process is adopted in the matrix compactness process so that the high compactness matrix can be obtained, it can be also ensured that the interlayer layer does not crack before high-temperature heat treatment, obtaining of the porous oxide coating is ensured, so that a weak interface is formed between the fiber and the matrix of the composite material, and a toughness improving effect of the composite material is achieved.

Description

technical field [0001] The invention belongs to the preparation technology of continuous fiber reinforced ceramic matrix composite material, and relates to a preparation method of continuous alumina fiber reinforced alumina ceramic matrix composite material. Background technique [0002] Continuous fiber-reinforced composite materials have the characteristics of low density, high specific strength, high specific modulus, high temperature resistance, oxidation resistance, and good reliability. They are the development direction of high-performance aero-engine materials. Among them, ceramic matrix composite (CMC) is a kind of high temperature (1650 ℃) and low density (2.5g / cm 3 ~3.3g / cm 3 ), which is expected to replace the density greater than 8.0g / cm 3 High-quality nickel-based or single-crystal nickel alloys are used as engine combustion chambers, flame stabilizers, inner cones, tail nozzles, worm wheel outer rings, high-pressure turbines, low-pressure turbines and other ...

Claims

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Application Information

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IPC IPC(8): C04B35/76C04B35/10C04B35/84
CPCC04B35/10C04B35/76C04B2235/48C04B2235/483
Inventor 梁艳媛王岭李宝伟焦春荣刘善华张冰玉邱海鹏
Owner AVIC COMPOSITES
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