CN105622152A - Preparation method of ultrasonically-dispersed titanium carbide and boron carbide-carbon fiber friction material - Google Patents
Preparation method of ultrasonically-dispersed titanium carbide and boron carbide-carbon fiber friction material Download PDFInfo
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Abstract
The invention discloses a preparation method of an ultrasonically-dispersed titanium carbide and boron carbide-carbon fiber friction material. The preparation method is characterized in that a graphitized carbon fiber blanket with density of 0.1g/cm<3> to 1.8g/cm<3> is subjected to carburization treatment, and is then subjected to boron carbide deposition treatment, afterwards, is subjected to ultrasonic-dispersion titanium carbide filling treatment, subsequently, is subjected to embedment siliconization treatment, and finally, is subjected to nitrogenization treatment in nitrogen atmosphere, so as to prepare the ultrasonically-dispersed titanium carbide and boron carbide-carbon fiber friction material. According to the preparation method, the preparation of the friction material is realized by adopting the graphitized carbon fiber blanket and through steps of carburization, boron carbide deposition, titanium carbide filling, embedment siliconization, nitrogenization and the like; the prepared friction material has high strength, high toughness and high friction performance, and is a friction material which can adapt to various climatic conditions.
Description
Technical field
The preparation method that the present invention relates to the friction material of a kind of carbon fiber and ceramic material compound, belongs to technical field of composite preparation.
Background technology
What friction material currently mainly adopted is carbon fiber and carbon (C/C) composite, owing to the anti-wear performance of C/C composite is relatively low, and the preparation method that people are seeking the higher friction material of anti-wear performance. It addition, C/C composite is in a humid environment, its frictional behaviour can reduce, and brings serious potential safety hazard to using.
Summary of the invention
It is an object of the invention to provide and a kind of can overcome drawbacks described above, realize preparation higher intensity, higher frictional behaviour and adapt to the preparation method of friction material of various weather conditions. Its technical scheme is:
The preparation method of ultrasound wave dispersion titanium carbide boron carbide-carbon fiber friction material is to be 0.1 ~ 1.8g/cm by density3Graphited carbon fiber blanket carries out depositing silicon boron process after carrying out Carburization Treatment, carry out ultrasound wave dispersion titanium carbide filling again to process, carrying out embedment siliconising again to process, then in nitrogen atmosphere, nitrogen treatment prepares ultrasound wave dispersion titanium carbide boron carbide-carbon fiber friction material, specifically comprises the following steps that
(1) it is 0.1 ~ 1.8g/cm by density3Graphited carbon fiber blanket passes into the mixing gas of propane flammable gas and nitrogen at 900 ~ 1100 DEG C of temperature, propane flammable gas: the mol ratio of nitrogen is 1:4 ~ 6, and flow-control is at 50 ~ 600ml/min, and Carburization Treatment obtains carburizing carbon fiber blanket in 10 ~ 24 hours;
(2) above-mentioned carburizing carbon fiber blanket is passed at 900 ~ 1100 DEG C of temperature the mixing gas of boron chloride, methane, hydrogen and argon, boron chloride: methane: hydrogen: the mol ratio of argon is 1:1 ~ 2:3 ~ 6:4 ~ 6, flow-control is at 50 ~ 600ml/min, and depositing silicon boron processes 10 ~ 24 hours and obtains depositing silicon boron carbon fiber blanket;
(3) above-mentioned depositing silicon boron carbon fiber blanket is immersed in the slurry that granularity is 5 ~ 20% titanium carbides less than 0.3 ��m of content, it is placed in ultrasonic cleaner and fills titanium carbide process 30 ~ 50 minutes, take out dried preparing and fill titanium carbide carbon fiber blanket, wherein, slurry is 0.5 ~ 1.5%pH value containing ammonium polyacrylate is the aqueous solution of 9 ~ 11;
(4) above-mentioned filling titanium carbide carbon fiber blanket is imbedded in siliconising material, under vacuum atmosphere, at the temperature of 1500 ~ 1800 DEG C, siliconising processes 3 ~ 5 hours prepared siliconising carbon fiber blankets, wherein, siliconising material is silica flour 30 ~ 50% and the polyvinyl alcohol water solution Homogeneous phase mixing that additional 5 ~ 15% concentration of mixture are 0.2 ~ 0.6% that diameter is 0.5 ~ 3mm carbon granule 50 ~ 70% prepares after drying;
(5) by above-mentioned siliconising carbon fiber blanket 10 ~ 24 hours prepared ultrasound wave dispersion titanium carbide boron carbide-carbon fiber friction materials of nitrogen treatment at the temperature of 1350 ~ 1700 DEG C.
Compared with prior art, its advantage is the present invention:
1, the carbon fiber blanket that the present invention uses is graphited carbon fiber blanket, or graphited needled carbon tapetum fibrosum, or graphited weaving carbon fiber cloth, or graphited 3 D weaving carbon fiber knits block;
2, friction material prepared by the present invention is by carbon fiber and titanium carbide, a kind of high intensity of silicon nitride compound, high frictional behaviour, the friction material that adapts under various weather conditions;
3, by carburizing, depositing silicon boron, fill titanium carbide, embedment siliconising and the step such as nitrogenize and realize the preparation of friction material, carburizing and two steps of depositing silicon boron be in order to protect carbon fiber surface not to be damaged and carbon fiber surface give carbon coating and boron carbide coating, because boron carbide coating can stop that silicon steam penetrates in the process of siliconising, boron carbide coating is once seepage, carbide coatings and silicon steam reaction generate carborundum and stop silicon steam further, thus protecting carbon fiber surface not to be damaged;
4, carbon fiber blanket has the significantly high porosity, depends merely on carburizing and depositing silicon boron may require that and is lot more time to reach densification, and manufacturing cost is significantly high. The space adopting the method filling carbon fiber blanket filling titanium carbide and embedment siliconising will be very convenient, time saving and energy saving, fills titanium carbide simultaneously and can improve the anti-wear performance of friction material further;
5, the present invention utilizes the effect of ultrasonic acoustic to produce microvesicle in the slurry, when acoustic pressure or the sound intensity reach to a certain degree, microvesicle will expand rapidly, then close suddenly again, the moment of microvesicle Guan Bi produces shock wave, make to produce around microvesicle the pressure of about 1012pa, force titanium carbide granule to be filled in the space of depositing silicon silicon-carbon tapetum fibrosum, reach the purpose of calking;
6, slurry dispersion titanium carbide filling is adopted to process, it is possible to being effectively improved titanium carbide granule suspendability, improve charging efficiency, titanium carbide granule is firmly combined together by the silicon nitride generated in nitridation process;
7, due to penetrate into metallic silicon fusing point relatively low be about 1420 DEG C, the temperature of friction material work surface is instantaneous up to nearly 2000 DEG C, metallic silicon is nitrogenized generation silicon nitride, form the friction material of microcellular structure, the tolerable temperature of friction material work surface can be increased substantially, improve the service life of friction material.
Detailed description of the invention
Embodiment 1
(1) it is 1.8g/cm by density3Graphited carbon fiber blanket passes into the mixing gas of propane flammable gas and nitrogen at 900 DEG C of temperature, propane flammable gas: nitrogen mol ratio be 1:4, flow-control is at 50ml/min, and Carburization Treatment obtains carburizing carbon fiber blanket in 24 hours;
(2) above-mentioned carburizing carbon fiber blanket is passed at 900 DEG C of temperature the mixing gas of boron chloride, methane, hydrogen and argon, boron chloride: methane: hydrogen: the mol ratio of argon is 1:1:3:4, flow-control is at 50ml/min, and depositing silicon boron processes 24 hours and obtains depositing silicon boron carbon fiber blanket;
(3) above-mentioned depositing silicon boron carbon fiber blanket is immersed in the titanium carbide slurry that granularity less than 0.3 ��m of content is 5%, it is placed in ultrasonic cleaner and fills titanium carbide process 50 minutes, take out dried preparing and fill titanium carbide carbon fiber blanket, wherein, slurry is the 0.5%pH value containing ammonium polyacrylate is the aqueous solution of 9;
(4) above-mentioned filling titanium carbide carbon fiber blanket is imbedded in siliconising material, 5 hours prepared siliconising carbon fiber blankets of siliconising at the temperature of 1500 DEG C under vacuum atmosphere, wherein, siliconising material be silica flour 30% and diameter to be additional 5% concentration of 0.5mm carbon granule 70% be 0.2% polyvinyl alcohol water solution Homogeneous phase mixing after dry prepare;
(5) by above-mentioned siliconising carbon fiber blanket 10 hours prepared titanium carbide boron carbide-carbon fiber friction materials of nitrogen treatment at the temperature of 1700 DEG C.
Embodiment 2
(1) it is 0.8g/cm by density3Graphited carbon fiber blanket passes into the mixing gas of propane flammable gas and nitrogen at 1000 DEG C of temperature, propane flammable gas: nitrogen mol ratio be 1:5, flow-control is at 350ml/min, and Carburization Treatment obtains carburizing carbon fiber blanket in 18 hours;
(2) above-mentioned carburizing carbon fiber blanket is passed at 1000 DEG C of temperature the mixing gas of boron chloride, methane, hydrogen and argon, boron chloride: methane: hydrogen: the mol ratio of argon is 1:1.5:4.5:5, flow-control is at 350ml/min, and depositing silicon boron processes 17 hours and obtains depositing silicon boron carbon fiber blanket;
(3) above-mentioned depositing silicon boron carbon fiber blanket is immersed in the titanium carbide slurry that granularity less than 0.3 ��m of content is 12%, it is placed in ultrasonic cleaner and fills titanium carbide process 40 minutes, take out dried preparing and fill titanium carbide carbon fiber blanket, wherein, slurry is the 1%pH value containing ammonium polyacrylate is the aqueous solution of 10;
(4) above-mentioned filling titanium carbide carbon fiber blanket is imbedded in siliconising material, 4 hours prepared siliconising carbon fiber blankets of siliconising at the temperature of 1650 DEG C under vacuum atmosphere, wherein, siliconising material be silica flour 40% and diameter to be additional 10% concentration of 2mm carbon granule 60% be 0.4% polyvinyl alcohol water solution Homogeneous phase mixing after dry prepare;
(5) by above-mentioned siliconising carbon fiber blanket 18 hours prepared titanium carbide boron carbide-carbon fiber friction materials of nitrogen treatment at the temperature of 1550 DEG C.
Embodiment 3
(1) it is 0.1g/cm by density3Graphited carbon fiber blanket passes into the mixing gas of propane flammable gas and nitrogen at 1100 DEG C of temperature, propane flammable gas: nitrogen mol ratio be 1:6, flow-control is at 600ml/min, and Carburization Treatment obtains carburizing carbon fiber blanket in 10 hours;
(2) above-mentioned carburizing carbon fiber blanket is passed at 1100 DEG C of temperature the mixing gas of boron chloride, methane, hydrogen and argon, boron chloride: methane: hydrogen: the mol ratio of argon is 1:2:6:6, flow-control is at 600ml/min, and depositing silicon boron processes 10 hours and obtains depositing silicon boron carbon fiber blanket;
(3) above-mentioned depositing silicon boron carbon fiber blanket is immersed in the titanium carbide slurry that granularity less than 0.3 ��m of content is 20%, it is placed in ultrasonic cleaner and fills titanium carbide process 30 minutes, take out dried preparing and fill titanium carbide carbon fiber blanket, wherein, slurry is the 1.5%pH value containing ammonium polyacrylate is the aqueous solution of 11;
(4) above-mentioned filling titanium carbide carbon fiber blanket is imbedded in siliconising material, 3 hours prepared siliconising carbon fiber blankets of siliconising at the temperature of 1800 DEG C under vacuum atmosphere, wherein, siliconising material be silica flour 50% and diameter to be additional 15% concentration of 3mm carbon granule 50% be 0.6% polyvinyl alcohol water solution Homogeneous phase mixing after dry prepare;
(5) by above-mentioned siliconising carbon fiber blanket 24 hours prepared titanium carbide boron carbide-carbon fiber friction materials of nitrogen treatment at the temperature of 1350 DEG C.
Claims (1)
1. the preparation method of ultrasound wave dispersion titanium carbide boron carbide-carbon fiber friction material, it is characterised in that be 0.1 ~ 1.8g/cm by density3Graphited carbon fiber blanket carries out depositing silicon boron process after carrying out Carburization Treatment, carry out ultrasound wave dispersion titanium carbide filling again to process, carrying out embedment siliconising again to process, then in nitrogen atmosphere, nitrogen treatment prepares ultrasound wave dispersion titanium carbide boron carbide-carbon fiber friction material, specifically comprises the following steps that
(1) it is 0.1 ~ 1.8g/cm by density3Graphited carbon fiber blanket passes into the mixing gas of propane flammable gas and nitrogen at 900 ~ 1100 DEG C of temperature, propane flammable gas: the mol ratio of nitrogen is 1:4 ~ 6, and flow-control is at 50 ~ 600ml/min, and Carburization Treatment obtains carburizing carbon fiber blanket in 10 ~ 24 hours;
(2) above-mentioned carburizing carbon fiber blanket is passed at 900 ~ 1100 DEG C of temperature the mixing gas of boron chloride, methane, hydrogen and argon, boron chloride: methane: hydrogen: the mol ratio of argon is 1:1 ~ 2:3 ~ 6:4 ~ 6, mixed gas flow controls at 50 ~ 600ml/min, and depositing silicon boron processes 10 ~ 24 hours and obtains depositing silicon boron carbon fiber blanket;
(3) above-mentioned depositing silicon boron carbon fiber blanket is immersed in the slurry that granularity is 5 ~ 20% titanium carbides less than 0.3 ��m of content, it is placed in ultrasonic cleaner and fills titanium carbide process 30 ~ 50 minutes, take out dried preparing and fill titanium carbide carbon fiber blanket, wherein, slurry is 0.5 ~ 1.5%pH value containing ammonium polyacrylate is the aqueous solution of 9 ~ 11;
(4) above-mentioned filling titanium carbide carbon fiber blanket is imbedded in siliconising material, under vacuum atmosphere, at the temperature of 1500 ~ 1800 DEG C, siliconising processes 3 ~ 5 hours prepared siliconising carbon fiber blankets, wherein, siliconising material is silica flour 30 ~ 50% and the polyvinyl alcohol water solution Homogeneous phase mixing that additional 5 ~ 15% concentration of mixture are 0.2 ~ 0.6% that diameter is 0.5 ~ 3mm carbon granule 50 ~ 70% prepares after drying;
(5) by above-mentioned siliconising carbon fiber blanket 10 ~ 24 hours prepared ultrasound wave dispersion titanium carbide boron carbide-carbon fiber friction materials of nitrogen treatment at the temperature of 1350 ~ 1700 DEG C.
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CN103724035A (en) * | 2013-07-23 | 2014-04-16 | 太仓派欧技术咨询服务有限公司 | Densification method for carbon fiber reinforced silicon carbonitride ceramic composite material |
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CN1850730A (en) * | 2006-05-26 | 2006-10-25 | 中国科学院上海硅酸盐研究所 | Method for preparing carbon-fiber reinforced silicon carbonate base composite by gas-phase siliconizing technology |
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 |
CN101503305A (en) * | 2009-02-03 | 2009-08-12 | 西北工业大学 | Process for preparing self-sealing silicon carbide ceramic based composite material |
CN103086731A (en) * | 2011-10-28 | 2013-05-08 | 中国科学院上海硅酸盐研究所 | Micro-region in-situ reaction preparation method for high strength fiber-reinforced ceramic matrix composite material |
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