CN105622146B - The preparation method of resin dispersion niobium carbide boron carbide carbon fiber friction material - Google Patents
The preparation method of resin dispersion niobium carbide boron carbide carbon fiber friction material Download PDFInfo
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Abstract
The preparation method of resin dispersion niobium carbide boron carbide carbon fiber friction material, it is characterised in that by density be 0.1 ~ 1.8g/cm3Graphited carbon fiber blanket carries out depositing silicon boron processing after carrying out Carburization Treatment, resin dispersion niobium carbide filling processing is carried out again, carry out being embedded to siliconising processing again, then resin dispersion niobium carbide boron carbide carbon fiber friction material is made in nitrogen treatment in nitrogen atmosphere.The present invention is to realize the preparation of friction material by carburizing, depositing silicon silicon, filling niobium carbide, the embedment step such as siliconising and nitridation using graphitized carbon fibre blanket, prepared friction material high intensity, high tenacity, high frictional behaviour, adapt to the friction material of various weather conditions.
Description
Technical field
The present invention relates to a kind of preparation method of the compound friction material of carbon fiber and ceramic material, belong to composite system
Standby technical field.
Background technology
Friction material is at present mainly using carbon fiber and carbon(C/C)Composite is wear-resisting due to C/C composites
Performance is relatively low, and people are seeking the preparation method of the higher friction material of anti-wear performance.In addition, C/C composites exist
In moist environment, its frictional behaviour can be reduced, and serious potential safety hazard is brought to using.
The content of the invention
It can overcome drawbacks described above it is an object of the invention to provide one kind, realize preparation higher intensity, higher frictional behaviour
And adapt to the preparation method of the friction material of various weather conditions.Its technical scheme is:
It by density is 0.1 ~ 1.8 g/cm that the preparation method of resin dispersion niobium carbide boron carbide-carbon fiber friction material, which is,3
Graphited carbon fiber blanket carries out depositing silicon boron processing after carrying out Carburization Treatment, then carries out at resin dispersion niobium carbide filling
Reason, then carry out being embedded to siliconising processing, then resin dispersion niobium carbide boron carbide-carbon fiber is made in nitrogen treatment in nitrogen atmosphere
Friction material, comprise the following steps that:
(1)It is 0.1 ~ 1.8g/cm by density3Graphited carbon fiber blanket be passed through at a temperature of 900 ~ 1100 DEG C propane flammable gas and
The mixed gas of nitrogen, propane flammable gas:The mol ratio of nitrogen is 1:4 ~ 6, flow control in 50 ~ 600ml/min, Carburization Treatment 10 ~
Obtain carburizing carbon fiber blanket within 24 hours;
(2)Above-mentioned carburizing carbon fiber blanket is passed through boron chloride, methane, hydrogen and argon gas at a temperature of 900 ~ 1100 DEG C
Mixed gas, boron chloride:Methane:Hydrogen:The mol ratio of argon gas is 1:1~2:3~6:4 ~ 6, flow is controlled in 50 ~ 600ml/
Min, depositing silicon boron handle 10 ~ 24 hours and obtain depositing silicon boron carbon fiber blanket;
(3)Above-mentioned depositing silicon boron carbon fiber blanket is immersed into granularity and is less than the paste resin that 0.3 μm of content is 5 ~ 20% niobium carbides
In material, it is placed in ultrasonic cleaner and fills niobium carbide processing 30 ~ 50 minutes, takes out and filling niobium carbide carbon fiber is made after drying
Blanket, wherein resin slurry are the ethanol solution containing phenolic resin 5 ~ 20%;
(4)Above-mentioned filling niobium carbide carbon fiber blanket is embedded in siliconising material, 1500 ~ 1800 DEG C of the temperature under vacuum atmosphere
Lower siliconising handles 3 ~ 5 hours obtained siliconising carbon fiber blankets, wherein, siliconising material is silica flour 30 ~ 50% and a diameter of 0.5 ~ 3mm carbon granules
It is made after the uniform combination drying of polyvinyl alcohol water solution that 50 ~ 70% additional 5 ~ 15% concentration of mixture is 0.2 ~ 0.6%;
(5)By above-mentioned siliconising carbon fiber blanket, 10 ~ 24 hours obtained resins of nitrogen treatment divide at a temperature of 1350 ~ 1700 DEG C
Dissipate niobium carbide boron carbide-carbon fiber friction material.
Compared with prior art, its advantage is the present invention:
1st, the carbon fiber blanket that uses of the present invention is graphited carbon fiber blanket, or graphited needled carbon tapetum fibrosum, or stone
The weaving carbon fiber cloth of inkization, or graphited 3 D weaving carbon fiber knit block;
2nd, the friction material for preparing of the present invention is by compound a kind of high-strength of carbon fiber and boron carbide, niobium carbide, silicon nitride
Friction material under degree, high frictional behaviour, the various weather conditions of adaptation;
3rd, the system of friction material is realized by carburizing, depositing silicon boron, filling niobium carbide, the embedment step such as siliconising and nitridation
It is standby, two steps of carburizing and depositing silicon boron be in order to protect carbon fiber surface not to be damaged and carbon fiber surface assign charcoal
Coating and boron carbide coating, because boron carbide coating can stop the infiltration of silicon steam, boron carbide coating one during siliconising
Denier seepage, carbide coatings and silicon steam reaction generation carborundum further stop silicon steam, so as to protect carbon fiber surface not by
Destroy;
4th, carbon fiber blanket has the very high porosity, depends merely on carburizing and depositing silicon boron may require that and be lot more time to reach
Densification, manufacturing cost are very high.Will be very using the space of filling niobium carbide and the method filling carbon fiber blanket for being embedded to siliconising
It is convenient, it is time saving and energy saving, while fill niobium carbide and can further improve the anti-wear performance of friction material;
5th, the present invention produces microvesicle in the slurry using the effect of ultrasonic acoustic, when acoustic pressure or the sound intensity reach to a certain degree
When, microvesicle will expand rapidly, and then closure, the moment of microvesicle closure produce shock wave, make to produce about around microvesicle suddenly again
1012pa pressure, particles of niobium carbide is forced to be filled into the space of depositing silicon silicon-carbon tapetum fibrosum, reaches the purpose of calking;
6th, niobium carbide filling processing is disperseed using resin slurry, particles of niobium carbide suspendability can be effectively improved, improved
Charging efficiency, the activated carbon formed after resin high temperature carbonization wraps up particles of niobium carbide, anti-with silicon steam during siliconising
Carborundum should be formed, particles of niobium carbide is firmly combined together by the carborundum of generation;
7th, it is 1420 DEG C or so because the metallic silicon fusing point of infiltration is relatively low, the temperature of friction material working face is instantaneously up near
2000 DEG C, metallic silicon is nitrogenized into generation silicon nitride, the friction material of microcellular structure is formed, friction material work can be increased substantially
Make the tolerable temperature in face, improve the service life of friction material.
Embodiment
Embodiment 1
(1)It is 1.8g/cm by density3Graphited carbon fiber blanket is passed through the mixed of propane flammable gas and nitrogen at a temperature of 900 DEG C
Close gas, propane flammable gas:The mol ratio of nitrogen is 1:4, flow control obtains carburizing carbon in 24 hours in 50ml/min, Carburization Treatment
Tapetum fibrosum;
(2)Above-mentioned carburizing carbon fiber blanket is passed through to the mixing of boron chloride, methane, hydrogen and argon gas at a temperature of 900 DEG C
Gas, boron chloride:Methane:Hydrogen:The mol ratio of argon gas is 1:1:3:4, flow is controlled at 50ml/min, depositing silicon boron
Reason obtains depositing silicon boron carbon fiber blanket in 24 hours;
(3)Above-mentioned depositing silicon silicon-carbon tapetum fibrosum is immersed into granularity and is less than the resin slurry that 0.3 μm of content is 5% niobium carbide
In, it is placed in ultrasonic cleaner and fills niobium carbide processing 50 minutes, takes out and filling niobium carbide carbon fiber blanket is made after drying, set
Fat slurry is the ethanol solution containing phenolic resin 5%;
(4)Above-mentioned filling niobium carbide carbon fiber blanket is embedded in siliconising material, oozed under vacuum atmosphere at a temperature of 1500 DEG C
5 hours obtained siliconising carbon fiber blankets of silicon, wherein, siliconising material is silica flour 30% and additional 5% concentration of a diameter of 0.5mm carbon granules 70% is
0.2% polyvinyl alcohol water solution is dried after uniformly mixing and is made;
(5)By above-mentioned siliconising carbon fiber blanket at a temperature of 1700 DEG C 10 hours obtained niobium carbide boron carbides of nitrogen treatment-
Carbon fiber friction material.
Embodiment 2
(1)It is 0.8g/cm by density3Graphited carbon fiber blanket is passed through the mixed of propane flammable gas and nitrogen at a temperature of 1000 DEG C
Close gas, propane flammable gas:The mol ratio of nitrogen is 1:5, flow control obtains carburizing in 18 hours in 350ml/min, Carburization Treatment
Carbon fiber blanket;
(2)Above-mentioned carburizing carbon fiber blanket is passed through to the mixing of boron chloride, methane, hydrogen and argon gas at a temperature of 1000 DEG C
Gas, boron chloride:Methane:Hydrogen:The mol ratio of argon gas is 1:1.5:4.5:5, flow control is in 350ml/min, deposition carbon
Change boron and handle 17 hours acquisition depositing silicon boron carbon fiber blankets;
(3)Above-mentioned depositing silicon boron carbon fiber blanket is immersed into granularity and is less than the resin slurry that 0.3 μm of content is 12% niobium carbide
In, it is placed in ultrasonic cleaner and fills niobium carbide processing 40 minutes, takes out and filling niobium carbide carbon fiber blanket is made after drying, set
Fat slurry is the ethanol solution containing phenolic resin 12%;
(4)Above-mentioned filling niobium carbide carbon fiber blanket is embedded in siliconising material, oozed under vacuum atmosphere at a temperature of 1650 DEG C
4 hours obtained siliconising carbon fiber blankets of silicon, wherein, siliconising material is silica flour 40% and additional 10% concentration of a diameter of 2mm carbon granules 60% is
0.4% polyvinyl alcohol water solution is dried after uniformly mixing and is made;
(5)By above-mentioned siliconising carbon fiber blanket at a temperature of 1550 DEG C 18 hours obtained niobium carbide boron carbides of nitrogen treatment-
Carbon fiber friction material.
Embodiment 3
(1)It is 0.1g/cm by density3Graphited carbon fiber blanket is passed through the mixed of propane flammable gas and nitrogen at a temperature of 1100 DEG C
Close gas, propane flammable gas:The mol ratio of nitrogen is 1:6, flow control obtains carburizing in 10 hours in 600ml/min, Carburization Treatment
Carbon fiber blanket;
(2)Above-mentioned carburizing carbon fiber blanket is passed through to the mixing of boron chloride, methane, hydrogen and argon gas at a temperature of 1100 DEG C
Gas, boron chloride:Methane:Hydrogen:The mol ratio of argon gas is 1:2:6:6, flow is controlled in 600ml/min, depositing silicon boron
Processing obtains depositing silicon boron carbon fiber blanket in 10 hours;
(3)Above-mentioned depositing silicon boron carbon fiber blanket is immersed into granularity and is less than the resin slurry that 0.3 μm of content is 20% niobium carbide
In, it is placed in ultrasonic cleaner and fills niobium carbide processing 30 minutes, takes out and filling niobium carbide carbon fiber blanket is made after drying, set
Fat slurry is the ethanol solution containing phenolic resin 20%;
(4)Above-mentioned depositing silicon silicon-carbon tapetum fibrosum is embedded in siliconising material, oozed under vacuum atmosphere at a temperature of 1800 DEG C
3 hours obtained siliconising carbon fiber blankets of silicon, wherein, siliconising material is silica flour 50% and additional 15% concentration of a diameter of 3mm carbon granules 50% is
0.6% polyvinyl alcohol water solution is dried after uniformly mixing and is made;
(5)By above-mentioned siliconising carbon fiber blanket at a temperature of 1350 DEG C 24 hours obtained niobium carbide boron carbides of nitrogen treatment-
Carbon fiber friction material.
Claims (1)
1. the preparation method of resin dispersion niobium carbide boron carbide-carbon fiber friction material, it is characterised in that by density be 0.1 ~
1.8g/cm3Graphited carbon fiber blanket carries out depositing silicon boron processing after carrying out Carburization Treatment, then carries out resin dispersion niobium carbide
Filling is handled, then carries out being embedded to siliconising processing, then in nitrogen atmosphere nitrogen treatment be made resin dispersion niobium carbide boron carbide-
Carbon fiber friction material, comprise the following steps that:
(1)It is 0.1 ~ 1.8g/cm by density3Graphited carbon fiber blanket is passed through propane flammable gas and nitrogen at a temperature of 900 ~ 1100 DEG C
Mixed gas, propane flammable gas:The mol ratio of nitrogen is 1:4 ~ 6, flow control is small in 50 ~ 600ml/min, Carburization Treatment 10 ~ 24
When obtain carburizing carbon fiber blanket;
(2)Above-mentioned carburizing carbon fiber blanket is passed through to the mixing of boron chloride, methane, hydrogen and argon gas at a temperature of 900 ~ 1100 DEG C
Gas, boron chloride:Methane:Hydrogen:The mol ratio of argon gas is 1:1~2:3~6:4 ~ 6, flow is controlled in 50 ~ 600ml/min, is sunk
Product boron carbide handles 10 ~ 24 hours and obtains depositing silicon boron carbon fiber blanket;
(3)Above-mentioned depositing silicon boron carbon fiber blanket is immersed into granularity and is less than the resin slurry that 0.3 μm of content is 5 ~ 20% niobium carbides
In, it is placed in ultrasonic cleaner and fills niobium carbide processing 30 ~ 50 minutes, takes out and filling niobium carbide carbon fiber is made after drying
Blanket, wherein resin slurry are the ethanol solution containing phenolic resin 5 ~ 20%;
(4)Above-mentioned filling niobium carbide carbon fiber blanket is embedded in siliconising material, oozed under vacuum atmosphere at a temperature of 1500 ~ 1800 DEG C
Silicon handles 3 ~ 5 hours obtained siliconising carbon fiber blankets, wherein, siliconising material be silica flour 30 ~ 50% and a diameter of 0.5 ~ 3mm carbon granules 50 ~
It is made after the uniform combination drying of polyvinyl alcohol water solution that 70% additional 5 ~ 15% concentration of mixture is 0.2 ~ 0.6%;
(5)By above-mentioned siliconising carbon fiber blanket at a temperature of 1350 ~ 1700 DEG C 10 ~ 24 hours obtained resin dispersion carbon of nitrogen treatment
Change niobium boron carbide-carbon fiber friction material.
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CN101830703A (en) * | 2010-04-06 | 2010-09-15 | 中南大学 | Carbon fiber reinforced boron carbide composite material and preparation method thereof |
CN104909790A (en) * | 2015-05-26 | 2015-09-16 | 中国科学院上海硅酸盐研究所 | Two-dimensional fiber/boron nitride nanotube multistage reinforcement and preparation method thereof |
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CN101224989A (en) * | 2008-01-29 | 2008-07-23 | 中国人民解放军国防科学技术大学 | Two-dimensional fiber cloth reinforced composite material and preparation method thereof |
CN101830703A (en) * | 2010-04-06 | 2010-09-15 | 中南大学 | Carbon fiber reinforced boron carbide composite material and preparation method thereof |
CN104909790A (en) * | 2015-05-26 | 2015-09-16 | 中国科学院上海硅酸盐研究所 | Two-dimensional fiber/boron nitride nanotube multistage reinforcement and preparation method thereof |
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