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A kind of graphite fiber and preparation method thereof

A graphite fiber and fiber technology, applied in the field of graphite fiber and its preparation, can solve the problems of unsuitability, non-individualization, and great difference in top shape, and achieve good conductivity and improved purity

Active Publication Date: 2019-09-17
ZHENGZHOU UNIVERSITY OF AERONAUTICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the method of applying vapor deposition method to prepare graphite fiber under the condition of no catalyst has not been reported yet, especially the method and product of preparing uniform graphite fiber with straight shape and hemispherical top and length on the macro scale have not been reported. Even though macro-scale carbon nanotube bundles or ropes are prepared by vapor phase growth method, the product is formed by agglomeration of a large number of carbon nanotubes and is not an individualized product
However, the method of using organic fibers to obtain graphite fibers through carbonization and graphitization, due to carburizing and other processes, the fibers are relatively low in graphite lattice integrity and graphitization.
Moreover, when such fibers are cut into the length required by the device, the shape of the top of the individual will inevitably vary greatly and cannot be unified, so it is not suitable for application in vacuum electronics devices.

Method used

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  • A kind of graphite fiber and preparation method thereof
  • A kind of graphite fiber and preparation method thereof
  • A kind of graphite fiber and preparation method thereof

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Effect test

preparation example Construction

[0033] A kind of preparation method of graphite fiber is characterized in that, concrete steps are as follows:

[0034] Step 1. Substrate cleaning: clean the substrate according to the standard cleaning procedure and then dry it for use;

[0035] Step 2. Furnace loading: put the cleaned substrate into the designated position in the growth furnace, and check the working status of the equipment and the sealing of the gas path at the same time;

[0036]Step 3. Growth: Heat the working area in the growth furnace at a certain heating rate, and when the temperature rises to 150-250°C, argon gas is introduced; when the temperature rises to 550-650°C, the flow of argon gas is maintained, and Hydrogen: When the temperature rises to 950-1050°C, the temperature is kept constant, and after 10-60 minutes of constant temperature, methane gas is introduced to officially start the growth stage. The growth time is expressed by the time of methane gas ventilation, and the time is 60-120 minutes...

Embodiment 1

[0043] Graphite fibers are prepared by gas phase deposition under catalyst-free conditions, and the specific steps are as follows:

[0044] 1. Substrate cleaning. The catalyst-free quartz slices were cleaned according to standard cleaning procedures and then dried for use. The cleaning procedure is: first put the quartz substrate into a proper amount of absolute alcohol and acetone 1:1 mixture and ultrasonically clean it for more than 15 minutes, then take it out and ultrasonically clean it in deionized water for 5 minutes, then take it out and put it into concentrated sulfuric acid and hydrogen peroxide In the 5:1 mixed system, pickle for 15 minutes while heating to boiling state, then take it out and wash it with deionized water, then dry it or blow it dry with high-purity gas.

[0045] 2. Load the furnace. Load the clean substrate into the middle area of ​​the constant temperature zone of the tube furnace, and the outer diameter of the quartz tube is 8 cm.

[0046] 3. Gr...

Embodiment 2

[0050] Graphite fibers are prepared by gas phase deposition under catalyst-free conditions, and the specific steps are as follows:

[0051] 1. Substrate cleaning. The catalyst-free quartz slices were cleaned according to standard cleaning procedures and then dried for use. The cleaning procedure is: put the quartz substrate into a proper amount of absolute alcohol and acetone 1:1 mixture and ultrasonically clean it for 60 minutes. In the 5:1 mixed system, pickle for 60 minutes under heating to boiling state, then take it out and wash it with deionized water, then dry it or blow it dry with high-purity gas.

[0052] 2. Load the furnace. Put the clean substrate into the middle area of ​​the constant temperature zone of the chemical vapor deposition equipment, and the outer diameter of the quartz tube is 8 cm.

[0053] 3. Growth. Check the working status of the equipment, especially whether there is any leakage in the gas path; heat the working area of ​​the chemical vapor de...

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Abstract

The invention relates to a graphite fiber and a preparation method thereof. The graphite fiber serving as a monomer fiber directly grows by adopting a vapor deposition method under the condition of no catalyst; the purity of obtained products is greater than 99.99 percent; the obtained products are straight and filamentous in appearance, the diameter range is 0.1 to 50mu m and the length range is 3 to 100mm; the products are generally parallel to one another; a hemispherical sealing cover is arranged at the top of each product and the interior of the fiber is solid; Raman spectrum shows that the intensity of a G peak is greater than that of a D peak in the graphite fiber; the graphite fiber has a metallic luster under the irradiation of visible light, and the resistivity of the graphite fiber is equivalent to that of graphite. The graphite fiber uses a quartz plate as a substrate, adopts argon and hydrogen as carrier gases, selects methane as a carbon source, and is prepared by cleaning the substrate, charging into a furnace, carrying out vapor deposition growth and sampling. With a special form and physical properties, the performance consistency between devices can be ensured when the graphite fiber prepared by the method is used for producing vacuum electronic devices such as a cold field emission electric gun filament.

Description

technical field [0001] The invention relates to a graphite fiber and a preparation method thereof, in particular to a graphite fiber prepared under a catalyst-free condition. Background technique [0002] In recent years, various carbon nanomaterials have become research hotspots, such as carbon nanotubes and nanocarbon fibers. Due to its nanometer-scale diameter and micrometer-scale length, as well as good mechanical, electrical, thermal properties and chemical stability, it has high hopes in the fields of engineering materials, microelectronics, micro-electromechanical systems, biology, and medical treatment. However, due to the extremely small scale and large specific surface of carbon nanomaterials, carbon nanotubes have a strong adsorption capacity for each other. Carbon nanotubes prepared by conventional processes are usually entangled and difficult to independently assemble in the designated position of the device. Applications present challenges. Micro-nanoelectron...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): D01F9/127D01F1/09
Inventor 曾凡光杨卫飞麻华丽霍海波张继宣许坤陈雷明张坤乔淑珍
Owner ZHENGZHOU UNIVERSITY OF AERONAUTICS
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