CN110981490A - CNT toughening of B4C-SiC laminated composite ceramic and preparation method thereof - Google Patents

Abstract

CNT (carbon nanotube) toughening B₄A C-SiC layered composite ceramic and a preparation method thereof belong to the technical field of composite material preparation. The CNT toughens B₄The preparation method of the C-SiC layered composite ceramic comprises the following steps: s1, designing CNT, PVP and H according to a layered structure₂Mixing O uniformly in different proportions to prepare CNT dispersion liquids with different proportions; s2, configuring CNT-B with different mixture ratio based on the step S1₄C-Si composite pastes, each composite paste comprising the same weight of B₄C, nano powder, simple substance silicon and phenolic resin; s3, mixing the materials in different proportionsCNT-B of (A)₄Respectively spraying and granulating the C-Si composite slurry to obtain CNT-B with different proportions₄C-Si composite dry powder; s4, gradually increasing or decreasing the weight ratio of CNT, and laying CNT-B with different proportions in a mould in a layered manner₄C-Si composite dry powder, compacting, forming and firing to obtain CNT toughened B₄C-SiC laminated composite ceramic. The invention improves the toughness of the prepared laminated composite ceramic by adding simple substance silicon and CNT and adopting the laminated structure design.

Description

CNT toughening of B4C-SiC laminated composite ceramic and preparation method thereof

Technical Field

The invention relates to a technology in the field of composite material preparation, in particular to CNT (carbon nanotube) toughened B₄C-SiC laminated composite ceramic and a preparation method thereof.

Background

B₄The C has physical and mechanical properties such as low density and high strength, and is widely applied to the fields of aviation, military equipment and the like. However B₄C is brittle in itself and therefore needs to be improved by additives, reaction sintering B₄The C-SiC material is an ideal composite ceramic material. But currently used B₄The C raw material is limited by the preparation process and often contains a certain amount of free carbon, and the existence of the free carbon can cause reaction sintering B₄The compactness and hardness of the C-SiC composite ceramic material are reduced.

The present invention has been made to solve the above-mentioned problems occurring in the prior art.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a CNT (carbon nanotube) toughened B₄The C-SiC laminated composite ceramic is prepared by adding simple substance silicon and B₄And free carbon in the raw material C reacts, so that the compactness of the composite ceramic is improved, the hardness of the composite ceramic is enhanced, and the toughness of the composite ceramic is improved by adopting a laminated structure and adding CNT.

The invention relates to a CNT toughened B₄The preparation method of the C-SiC layered composite ceramic comprises the following steps:

s1, designing CNT, PVP (polyvinyl pyrrolidone) and H according to a layered structure₂Mixing O uniformly in different proportions, and preparing CNT dispersion liquids with different proportions;

s2, configuring CNT-B with different mixture ratio based on the step S1₄C-Si composite pastes, each composite paste comprising the same weight of B₄C, nano powder, elemental silicon with the same weight and phenolic resin with the same weight;

s3, mixing CNT-B with different proportions₄Respectively spraying and granulating the C-Si composite slurry to obtain CNT-B with different proportions₄C-Si composite dry powder;

s4, gradually increasing or decreasing the weight ratio of CNT, and laying CNT-B with different proportions in a mould in a layered manner₄C-Si composite dry powder is pressed into a blank for forming; under vacuum condition, heatingFiring at 1850-2100 ℃ to obtain CNT toughened B₄C-SiC laminated composite ceramic.

Preferably, the CNT-B₄CNT and B in C-Si composite slurry₄The mixing ratio of C to Si is 8-15: 10-50: 1 to 10, CNT-B₄The weight proportion of the phenolic resin in the C-Si composite slurry is 1-10%.

The invention relates to a CNT toughened B₄The C-SiC laminated composite ceramic is prepared by the method.

Technical effects

Compared with the prior art, the invention has the following technical effects:

1) mixing CNT-B with different proportions₄The C-Si composite dry powder is laid in a mould in a layered mode, and a pressed blank is formed and fired to obtain a layered structure material, so that the toughness of the ceramic product is enhanced, and the problem that the toughness and hardness of the conventional ceramic product are difficult to improve simultaneously is solved;

2) by adding elemental silicon with B₄Free carbon in C reacts to generate SiC, so that the compactness and hardness of the ceramic are improved;

3) adding CNT to improve the toughness of the composite ceramic, preparing CNT into dispersion, and B₄C. The affinity of Si is improved.

Drawings

FIG. 1 CNT toughening B prepared in example 1₄XRD pattern of C-SiC laminated composite ceramic;

FIG. 2 CNT toughening B prepared in example 1₄SEM photograph of C-SiC layered composite ceramic.

Detailed Description

The invention is described in detail below with reference to the drawings and the detailed description.

The embodiment of the invention relates to CNT (carbon nanotube) toughened B₄The preparation method of the C-SiC layered composite ceramic comprises the following steps:

s1, mixing CNT, PVP and H according to the design of a laminated structure (at least 3 layers)₂Mixing O uniformly in different proportions to prepare CNT dispersion liquids with different proportions;

s2, configuring differently based on the step S1Formulated CNT-B₄C-Si composite pastes, each composite paste comprising the same weight of B₄C, nano powder, elemental silicon with the same weight and phenolic resin with the same weight;

s3, mixing CNT-B with different proportions₄Respectively spraying and granulating the C-Si composite slurry to obtain CNT-B with different proportions₄C-Si composite dry powder;

s4, gradually increasing or decreasing the weight ratio of CNT, and laying CNT-B with different proportions in a mould in a layered manner₄C-Si composite dry powder is pressed into a blank for forming; under the vacuum condition, the temperature is raised to 1850-₄C-SiC laminated composite ceramic.

Preferably, the CNT-B₄CNT and B in C-Si composite slurry₄The mixing ratio of C to Si is 8-15: 10-50: 1 to 10, CNT-B₄The weight proportion of the phenolic resin in the C-Si composite slurry is 1-10%.

Preferably, the CNT dispersion comprises CNT, PVP and H₂The mixing ratio of O is 1-50: 1: 100 to 500.

Preferably, the CNT is a whisker multi-wall carbon nanotube, the length of the CNT is 5-20 μm, and the diameter of the CNT is 50-200 nm.

Preferably, B is₄The grain size of the C nano powder is 100-500 nm.

Preferably, the elemental silicon is silicon powder.

Example 1

This example relates to a CNT toughened B₄The preparation method of the C-SiC layered composite ceramic comprises the following steps:

s1, preparing CNT dispersion-1, CNT dispersion-2 and CNT dispersion-3 respectively;

mixing CNT, PVP and H₂Mixing O uniformly, performing ultrasonic treatment, and stirring uniformly to obtain CNT dispersion liquid-1, CNT dispersion liquid-2 and CNT dispersion liquid-3; CNT in CNT dispersion-1, CNT dispersion-2, and CNT dispersion-3: PVP: h₂The weight ratio of O is 1: 1: 200. 10: 1: 200. 20: 1: 200 of a carrier;

s2 based on CNT Dispersion-1, CNT Dispersion-2 and CNT Dispersion-3 with CNT-B₄C-Si composite paste-1, CNT-B₄C-Si composite paste-2, CNT-B₄C-Si composite slurry-3;

each CNT-B₄The C-Si composite slurry comprises B₄5.0kg of C nano powder, 0.2kg of silicon powder, 0.45kg of phenolic resin and 5.0kg of B₄Mixing the C nano powder with 10.0kg of water, adding 0.2kg of silicon powder and 2.0kg of CNT dispersion liquid, sanding for 30min, adding 0.45kg of phenolic resin, and uniformly stirring;

s3 CNT toughening B₄Firing the C-SiC laminated composite ceramic;

mixing CNT-B₄C-Si composite paste-1, CNT-B₄C-Si composite paste-2, CNT-B₄Spray-drying C-Si composite slurry-3 respectively to obtain CNT-B₄C-Si composite dry powder-1, CNT-B₄C-Si composite dry powder-2, CNT-B₄C-Si composite dry powder-3; then adding CNT-B₄C-Si composite dry powder-1, CNT-B₄C-Si composite dry powder-2, CNT-B₄C-Si composite dry powder-3 is sequentially laid in a mould in a layered manner, and pressed into a blank for forming; heating to 2000 deg.C at a rate of 5-20 deg.C/min under vacuum condition, and firing at 2000 deg.C to obtain CNT toughened B₄C-SiC laminated composite ceramic.

CNT toughening B prepared in this example by scanning Electron microscope and X-ray diffractometer₄And carrying out structural characterization on the C-SiC layered composite ceramic to obtain an XRD (X-ray diffraction) spectrum shown in figure 1 and an SEM (scanning Electron microscope) pattern shown in figure 2. As can be seen from the XRD pattern of FIG. 1, CNT toughened B₄The C-SiC laminated composite ceramic consists of C, B₄C. SiC is composed of three phases, and no other phases or substances are found. As can be seen from the SEM image of FIG. 2, CNT toughening B₄The C-SiC laminated composite ceramic has good densification and uniform dispersion of CNT. CNT toughening B measured by Archimedes method₄The density of the C-SiC layered composite ceramic was 98.22% of the theoretical value.

It is to be emphasized that: the above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any simple modification, equivalent change and modification made to the above embodiment according to the technical spirit of the present invention are within the scope of the technical solution of the present invention.

Claims (7)

1. CNT (carbon nanotube) toughening B₄The preparation method of the C-SiC layered composite ceramic is characterized by comprising the following steps of:

s1, designing CNT, PVP and H according to a layered structure₂Mixing O uniformly in different proportions to prepare CNT dispersion liquids with different proportions;

s2, configuring CNT-B with different mixture ratio based on the step S1₄C-Si composite pastes, each composite paste comprising the same weight of B₄C, nano powder, elemental silicon with the same weight and phenolic resin with the same weight;

s3, mixing CNT-B with different proportions₄Respectively spraying and granulating the C-Si composite slurry to obtain CNT-B with different proportions₄C-Si composite dry powder;

s4, gradually increasing or decreasing the weight ratio of CNT, and laying CNT-B with different proportions in a mould in a layered manner₄C-Si composite dry powder is pressed into a blank for forming; heating to 1850-₄C-SiC laminated composite ceramic.

2. CNT toughened B according to claim 1₄The preparation method of the C-SiC layered composite ceramic is characterized in that CNT, PVP and H in the CNT dispersion liquid₂The mixing ratio of O is 1-50: 1: 100 to 500.

3. CNT toughened B according to claim 2₄The preparation method of the C-SiC layered composite ceramic is characterized in that the CNT toughens the B₄The C-SiC laminated composite ceramic is designed with three layers, correspondingly, CNT dispersions with three proportions are adopted, namely CNT dispersion-1, CNT dispersion-2 and CNT dispersion-3, wherein the CNT dispersions in the CNT dispersion-1, the CNT dispersion-2 and the CNT dispersion-3 comprise CNT: PVP: h₂The weight ratio of O is 1: 1: 200. 10: 1: 200. 20: 1: 200.

4. CNT toughened B according to claim 3₄Preparation method of C-SiC laminated composite ceramicCharacterized in that the CNT-B₄CNT and B in C-Si composite slurry₄The mixing ratio of C to simple substance silicon is 8-15: 10-50: 1 to 10, CNT-B₄The weight proportion of the phenolic resin in the C-Si composite slurry is 1-10%.

5. CNT toughened B according to claim 4₄The preparation method of the C-SiC layered composite ceramic is characterized in that the simple substance silicon is silicon powder.

6. CNT toughened B according to claim 1₄The preparation method of the C-SiC layered composite ceramic is characterized in that the heating rate is 5-20 ℃/min.

7. CNT (carbon nanotube) toughening B₄C-SiC layered composite ceramics, characterized in that it is obtained by the process according to any one of claims 1 to 6.

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