CN101100389A - SiC-BN-C composite material and preparation method thereof - Google Patents
SiC-BN-C composite material and preparation method thereof Download PDFInfo
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- CN101100389A CN101100389A CNA2007100168869A CN200710016886A CN101100389A CN 101100389 A CN101100389 A CN 101100389A CN A2007100168869 A CNA2007100168869 A CN A2007100168869A CN 200710016886 A CN200710016886 A CN 200710016886A CN 101100389 A CN101100389 A CN 101100389A
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Abstract
A SiC-BN-C composite material and its production are disclosed. The materials contain Si3N4 6.4-63.8%, B4C 2.5-24.9% and C 11.9-91.1%. The process is carried out by taking various powders, ball grinding, wet mixing, drying, crushing, packing into graphite mould, pre-pressurizing, putting into hot-press furnace, hot pressing while sintering at 1700-2200 deg. C in vacuum or under protecting atmosphere, pressurizing at 15-30 MPa, keeping temperature and pressure for 30 min-2 hrs, or taking amorphous carbon containing volatile composition as carbon source, crushing for mixed dried materials, packing into steel mould, pressurizing at 50-300 MPa, keeping pressure for 10 min-2 hrs, putting into hot-press furnace or atmosphere sintering furnace, sintering in vacuum or under protecting atmosphere, raising temperature to 800-1400 deg. C and keeping temperature for 30 min-2 hrs. It's simple and costs low.
Description
Technical field
The present invention relates to a kind of carbon/ceramic composite and preparation method thereof, particularly SiC-BN-C matrix material and preparation method thereof.
Background technology
We know, carbon current/graphite material is with plurality of advantages such as high temperature resistant, corrosion-resistant, good electroconductibility of its inherent and low prices and be widely used in various fields such as machinery, metallurgy, petrochemical complex, aerospace.Especially the characteristic that intensity increases under its self-lubricating and the high temperature makes its application as aerospace engine sealing material extensive day by day.But, make it can not satisfy the fast-developing day by day requirement of aerospace engine because carbon/graphite material intensity is low and easily oxidation in air more than 400 ℃.Therefore, the intensity and the high-temperature oxidation resistance of raising carbon/graphite material have become the current problem that presses for solution.Stupalith has that intensity height, hardness are big, high temperature resistant, anti-oxidant, abrasion resistance is good under the high temperature, chemical resistance is good, and thermal expansivity and relative density are less, wait excellent performance.But it also has fatal weakness, i.e. fragility simultaneously.Fragility is greatly the disadvantage of pottery, and it has greatly limited the ceramic application and the performance of other excellent properties.Silicon carbide is a kind of Industrial materials of extensive application, such as at solar cell, nuclear fuel skin and electronic material.In several silicon carbide, beta silicon carbide is the most useful stupalith because of its high anti-oxidant and radioprotective, suitable resistivity, semi-conductive broad-band gap, high strength and high rigidity, than higher heat conductivity and low thermal expansion.Six side BN have the laminate structure of similar graphite, have self lubricity and low Young's modulus and thermal expansivity, high thermal conductivity and good heat-shock resistance.In 800~1200 ℃ air, the oxidation products of SiC and BN mainly is SiO
2And B
2O
3, the two can melt mutually and form film, the further oxidation that has effectively slowed down sample at specimen surface at high temperature.
Summary of the invention
Technical problem to be solved by this invention is to overcome above-mentioned the deficiencies in the prior art, provides a kind of with Si
3N
4, B
4C and C are raw material, adopt the reaction in sintering process, utilize SiC and BN as wild phase, obtain SiC-BN-C matrix material of mechanical property height, anti-oxidant and self-lubricating and preparation method thereof.
The technical scheme that the present invention solves the problems of the technologies described above employing is: a kind of SiC-BN-C matrix material is characterized in that: with Si
3N
4, B
4C and C are raw material, obtain the SiC-BN-C matrix material by reaction in, and the weight percentage of its each composition is: Si
3N
4Powder 6.4%~63.8%, B
4C powder 2.5%~24.9% and C powder 11.9%~91.1%.The weight percentage of each composition is according to reaction equation Si in the raw material
3N
4+ B
4C+ (2+x) C=3SiC+4BN+xC determines.
The preparation method of the above-mentioned SiC-BN-C matrix material of the present invention, it is characterized in that it may further comprise the steps: a. gets Si by weight percentage
3N
4Powder 6.4%~63.8%, B
4C powder 2.5%~24.9% and C powder 11.9%~91.1% carry out the ball milling wet mixing; B. immediately mixed material is dried then; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in vacuum or protective atmosphere, the hot pressed sintering temperature is 1700 ℃~2200 ℃, pressurization 15~30MPa, heat-insulation pressure keeping 30min~2h.
The another kind of preparation method of the above-mentioned SiC-BN-C matrix material of the present invention, it is characterized in that may further comprise the steps: a. is with Si
3N
4Powder, B
4The C powder is a raw material with the decolorizing carbon that contains fugitive constituent, gets Si by weight percentage
3N
4Powder 6.4%~58.9%, B
4C powder 2.5%~23.2% carries out the ball milling wet mixing with the amorphous carbon powder 17.9%~91.1% that contains fugitive constituent; B. immediately with mixed drying materials; C. pack into the material fragmentation of oven dry in the steel die and apply 50~300MPa pressure pressurize 10min~2h or pressurize 10min~2h under isostatic cool pressing 50~200MPa pressure; D. put into vacuum hotpressing stove or atmosphere sintering furnace then, sintering in vacuum or protective atmosphere, temperature is elevated to 800 ℃~1400 ℃ insulation 30min~2h, and sintering temperature is 1800 ℃~2200 ℃, insulation 30min~2h.
Fugitive constituent in the above-mentioned decolorizing carbon that contains fugitive constituent is the resin with self sintering, content be contain fugitive constituent decolorizing carbon weight 5%~15%.
The present invention has following beneficial effect: 1, the present invention is with Si
3N
4, B
4C and C are raw material, adopt the reaction in sintering process to make the SiC-BN-C matrix material, and SiC that generates by reaction in and BN disperse equably are distributed in the carbon, demonstrate fully the advantage that is evenly distributed mutually that reaction in generates.Utilize SiC and BN as wild phase, prepare the SiC-BN-C matrix material of mechanical property height, anti-oxidant and self-lubricating.2, the mechanical property of SiC-BN-C matrix material is apparently higher than carbon/graphite material, and the bending strength of the matrix material of hot pressed sintering is 40~225MPa, and fracture toughness property is 0.1~3.2MPam
1/23, the high-temperature oxidation resistance of SiC-BN-C matrix material improves a lot than carbon/graphite material, and can form dense protective membrane at composite material surface, stops the further oxidation of matrix material.4, the SiC-BN-C matrix material of the present invention's preparation, its thing is combined to sintering and once finishes, and manufacturing process is simple, and production cost is low.5, SiC-BN-C matrix material of the present invention can be used as the use of high temperature dynamic sealing material.
Embodiment
SiC-BN-C matrix material of the present invention is with Si
3N
4, B
4C and C are raw material, prepare the SiC-BN-C matrix material by reaction in, and the weight percentage of its each composition is: Si
3N
4Powder 6.4%~63.8%, B
4C powder 2.5%~24.9% and C powder 11.9%~91.1%.Wherein the weight percentage of each composition is according to reaction equation Si in the raw material
3N
4+ B
4C+ (2+x) C=3SiC+4BN+xC determines, works as Si
3N
4, B
4The mol ratio of C and three kinds of raw materials of C is 1: 1: the purity of the matrix material of preparation is the highest in the time of (2+x).
The present invention will be further described below in conjunction with embodiment.
Embodiment 1: present embodiment is a carbon source with the carbonaceous mesophase spherules that contains 11wt.% left and right sides fugitive constituent, and a. gets Si by weight percentage
3N
4Powder 57.8%, B
4C powder 22.6% carries out ball milling wet mixing 24h with the carbonaceous mesophase spherules powder 19.6% that contains fugitive constituent; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in a vacuum, temperature rise rate is 5~8 ℃/min, at 950~1050 ℃ of insulation 30min, the hot pressed sintering temperature is 1950 ℃~2050 ℃, pressurization 25~30MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 92%, and the bending strength of matrix material is 225MPa, and fracture toughness property is 3.2MPam
1/2, the Vickers' hardness of matrix material is 0.9GPa.
Embodiment 2: present embodiment is a carbon source with the carbonaceous mesophase spherules that contains 10wt.% left and right sides fugitive constituent, and a. gets Si by weight percentage
3N
4Powder 42.0%, B
4C powder 16.7% carries out ball milling wet mixing 24h with the carbonaceous mesophase spherules powder 41.3% that contains fugitive constituent; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in a vacuum, temperature rise rate is 5~8 ℃/min, at 950~1050 ℃ of insulation 30min, the hot pressed sintering temperature is 1950 ℃~2050 ℃, pressurization 25~30MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 60%, and the bending strength of matrix material is 40MPa, and fracture toughness property is 0.9MPam
1/2, the Vickers' hardness of matrix material is 0.3GPa.
Embodiment 3: present embodiment is a carbon source with the carbonaceous mesophase spherules that contains 5wt.% left and right sides fugitive constituent, and a. gets Si by weight percentage
3N
4Powder 29.7%, B
4C powder 11.7% carries out ball milling wet mixing 3h with the carbonaceous mesophase spherules powder 58.7% that contains fugitive constituent; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in a vacuum, temperature rise rate is 5~8 ℃/min, at 950~1050 ℃ of insulation 30min, the hot pressed sintering temperature is 1950 ℃~2050 ℃, pressurization 25~30MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 73%, and the bending strength of matrix material is 44MPa, and fracture toughness property is 0.1MPam
1/2, the Vickers' hardness of matrix material is 0.4GPa.
Embodiment 4: present embodiment is carbon source with the after-smithing petroleum coke, and a. gets Si by weight percentage
3N
4Powder 30.5%, B
4C powder 12.0% and after-smithing petroleum coke powder 57.5% carries out ball milling wet mixing 3h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in a vacuum, temperature rise rate is 20~30 ℃/min, the hot pressed sintering temperature is 1950~2050 ℃, pressurization 25~30MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 90%, and the bending strength of matrix material is 103MPa, and fracture toughness property is 2.1MPam
1/2, the Vickers' hardness of matrix material is 0.6GPa.
Embodiment 5: present embodiment is carbon source with the after-smithing petroleum coke, and a. gets Si by weight percentage
3N
4Powder 43.9%, B
4C powder 17.4% and after-smithing petroleum coke powder 38.7% carries out ball milling wet mixing 3h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in a vacuum, temperature rise rate is 20~30 ℃/min, the hot pressed sintering temperature is 1950~2050 ℃, pressurization 25~30MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 91%, and the bending strength of matrix material is 121MPa, and fracture toughness property is 1.4MPam
1/2, the Vickers' hardness of matrix material is 1.5GPa.
Embodiment 6: present embodiment is carbon source with the after-smithing petroleum coke, and a. gets Si by weight percentage
3N
4Powder 58.9%, B
4C powder 23.0% and after-smithing petroleum coke powder 18.1% carries out ball milling wet mixing 3h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in a vacuum, temperature rise rate is 20~30 ℃/min, the hot pressed sintering temperature is 1950~2050 ℃, pressurization 25~30MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 82%, and the bending strength of matrix material is 61MPa, and fracture toughness property is 0.9MPam
1/2, the Vickers' hardness of matrix material is 0.5GPa.
Embodiment 7: present embodiment is carbon source with the after-smithing petroleum coke, and a. gets Si by weight percentage
3N
4Powder 15.9%, B
4C powder 6.4% and after-smithing petroleum coke powder 77.7% carries out ball milling wet mixing 3h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in a vacuum, temperature rise rate is 20~30 ℃/min, the hot pressed sintering temperature is 1950~2050 ℃, pressurization 25~30MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 79%, and fracture toughness property is 0.2MPam
1/2
Embodiment 8: present embodiment is a carbon source with the decolorizing carbon that contains 10wt.% left and right sides fugitive constituent, and a. gets Si by weight percentage
3N
4Powder 36.4%, B
4C powder 14.4% carries out ball milling wet mixing 4h with the amorphous carbon powder 49.2% that contains fugitive constituent; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in argon shield atmosphere, temperature rise rate are 10~20 ℃/min, and at 850~950 ℃ of insulation 30min, the hot pressed sintering temperature is 1950 ℃~2150 ℃, pressurization 23~27MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 85%~86%, and the bending strength of matrix material is 128~134MPa, and fracture toughness property is 1.7~2.0MPam
1/2, the Vickers' hardness of matrix material is 0.5GPa.
Embodiment 9: present embodiment is a carbon source with the decolorizing carbon that contains 10wt.% left and right sides fugitive constituent, and a. gets Si by weight percentage
3N
4Powder 30.0%, B
4C powder 11.8% and amorphous carbon powder 58.2% carries out ball milling wet mixing 4h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in argon shield atmosphere, temperature rise rate are 10~20 ℃/min, and at 850~950 ℃ of insulation 30min, the hot pressed sintering temperature is 1950 ℃~2150 ℃, pressurization 23~27MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 87%~92%, and the bending strength of matrix material is 94~118MPa, and fracture toughness property is 1.4~1.8MPam
1/2, the Vickers' hardness of matrix material is 0.4GPa.
Embodiment 10: present embodiment is a carbon source with the decolorizing carbon that contains 10wt.% left and right sides fugitive constituent, and a. gets Si by weight percentage
3N
4Powder 23.2%, B
4C powder 9.1% carries out ball milling wet mixing 4h with the amorphous carbon powder 67.7% that contains fugitive constituent; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in argon shield atmosphere, temperature rise rate are 10~20 ℃/min, and at 850~950 ℃ of insulation 30min, the hot pressed sintering temperature is 1950 ℃~2150 ℃, pressurization 23~27MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 84%~89%, and the bending strength of matrix material is 78~83MPa, and fracture toughness property is 1.3~1.5MPam
1/2, the Vickers' hardness of matrix material is 0.3~0.4GPa.
Embodiment 11: present embodiment is carbon source with graphite, and a. gets Si by weight percentage
3N
4Powder 44.3%, B
4C powder 17.7% and Graphite Powder 99 38.0% carries out ball milling wet mixing 1h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in argon shield atmosphere, temperature rise rate are 15~20 ℃/min, and the hot pressed sintering temperature is 1700 ℃~1800 ℃, pressurization 15~20MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 58%.
Embodiment 12: present embodiment is carbon source with graphite, and a. gets Si by weight percentage
3N
4Powder 32.1%, B
4C powder 12.8% and Graphite Powder 99 55.1% carries out ball milling wet mixing 1h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in argon shield atmosphere, temperature rise rate are 15~20 ℃/min, and the hot pressed sintering temperature is 1700 ℃~1800 ℃, pressurization 15~20MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 61%~65%.
Embodiment 13: present embodiment is carbon source with graphite, and a. gets Si by weight percentage
3N
4Powder 19.0%, B
4C powder 7.6% and Graphite Powder 99 73.4% carries out ball milling wet mixing 1h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in argon shield atmosphere, temperature rise rate are 15~20 ℃/min, and the hot pressed sintering temperature is 1700 ℃~1800 ℃, pressurization 15~20MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 71%~74%.
Embodiment 14: present embodiment is carbon source with graphite, and a. gets Si by weight percentage
3N
4Powder 6.4%, B
4C powder 2.5% and Graphite Powder 99 91.1% carries out ball milling wet mixing 1h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in argon shield atmosphere, temperature rise rate are 15~20 ℃/min, and the hot pressed sintering temperature is 1700 ℃~1800 ℃, pressurization 15~20MPa, heat-insulation pressure keeping 2h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 60%.
Embodiment 15: present embodiment is carbon source with the carbon black, and a. gets Si by weight percentage
3N
4Powder 35.0%, B
4C powder 14.0% and carbon black powder 51.0% carries out ball milling wet mixing 2h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in argon shield atmosphere, temperature rise rate are 10~20 ℃/min, and the hot pressed sintering temperature is 2050 ℃~2150 ℃, pressurization 25~30MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 76%, and the bending strength of matrix material is 51MPa.
Embodiment 16: this enforcement is carbon source with routine carbon black, and a. gets Si by weight percentage
3N
4Powder 50.0%, B
4C powder 20.0% and carbon black powder 30.0% carries out ball milling wet mixing 2h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in argon shield atmosphere, temperature rise rate are 10~20 ℃/min, and the hot pressed sintering temperature is 2100 ℃~2200 ℃, pressurization 25~30MPa, heat-insulation pressure keeping 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 75%, and the bending strength of matrix material is 40MPa.
Embodiment 17: present embodiment is carbon source with the carbon black, and a. gets Si by weight percentage
3N
4Powder 63.8%, B
4C powder 24.9% and carbon black powder 11.9% carries out ball milling wet mixing 2h; B. then immediately with mixed drying materials; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in argon shield atmosphere, temperature rise rate are 1~6 ℃/min, and the hot pressed sintering temperature is 1850 ℃~1950 ℃, pressurization 15~20MPa, heat-insulation pressure keeping 30min.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 61%.
Embodiment 18: present embodiment is a carbon source with the refinery coke that contains the 5wt.% fugitive constituent, and a. gets Si by weight percentage
3N
4Powder 58.9%, B
4C powder 23.2% and petroleum coke powder 17.9% carries out ball milling wet mixing 4h; B. immediately with mixed drying materials; C. pack into the material fragmentation of oven dry in the steel die and apply 50~100MPa pressure pressurize 1h~2h (perhaps pressurize 1h~2h) under isostatic cool pressing 50~100MPa pressure; D. put into vacuum hotpressing stove or atmosphere sintering furnace then, sintering in vacuum or protective atmosphere is incubated 30min when temperature is elevated to 900 ℃~1000 ℃, and sintering temperature is 1850 ℃~1950 ℃, insulation 30min.
The density of the SiC-BN-C matrix material that obtains behind the sintering is 68%~75%.
Embodiment 19: present embodiment is a carbon source with the refinery coke that contains the 15wt.% fugitive constituent, and a. gets Si by weight percentage
3N
4Powder 6.4%, B
4C powder 2.5% and petroleum coke powder 91.1% carries out ball milling wet mixing 1h; B. immediately with mixed drying materials; C. pack into the material fragmentation of oven dry in the steel die and apply 250~300MPa pressure pressurize 10min~30min (perhaps pressurize 10min~30min) under isostatic cool pressing 150~200MPa pressure; D. put into vacuum hotpressing stove or atmosphere sintering furnace then, sintering in vacuum or protective atmosphere is incubated 30min when temperature is elevated to 900 ℃~1000 ℃, and sintering temperature is 2100 ℃~2200 ℃, insulation 2h.
The density of the SiC-BN-C matrix material that obtains behind the sintering is 70%~75%.
Embodiment 20: present embodiment is a carbon source with the carbonaceous mesophase spherules that contains 11wt.% left and right sides fugitive constituent, and a. gets Si by weight percentage
3N
4Powder 14.5%, B
4C powder 5.7% and carbonaceous mesophase spherules powder 79.8% carries out ball milling wet mixing 24h; B. immediately with mixed drying materials; C. pack into the material fragmentation of oven dry in the steel die and apply 150MPa pressure pressurize 30min; D. put into vacuum hotpressing stove then, sintering is incubated 30min when temperature is elevated to 950 ℃~1050 ℃ in a vacuum, and sintering temperature is 1950 ℃~2050 ℃, insulation 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 81%, and the bending strength of matrix material is 90MPa, and fracture toughness property is 0.7MPam
1/2, the Vickers' hardness of matrix material is 0.4GPa.
Embodiment 21: present embodiment is a carbon source with the carbonaceous mesophase spherules that contains 11wt.% left and right sides fugitive constituent, and a. gets Si by weight percentage
3N
4Powder 28.5%, B
4C powder 11.2% and carbonaceous mesophase spherules powder 60.3% carries out ball milling wet mixing 24h; B. immediately with mixed drying materials; C. pack into the material fragmentation of oven dry in the steel die and apply 150MPa pressure pressurize 30min; D. put into vacuum hotpressing stove then, sintering is incubated 30min when temperature is elevated to 950 ℃~1050 ℃ in a vacuum, and sintering temperature is 1950 ℃~2050 ℃, insulation 1h.
The density of the SiC-BN-C matrix material that obtains behind the hot pressed sintering is 73%, and the bending strength of matrix material is 89MPa, and fracture toughness property is 1.2MPam
1/2, the Vickers' hardness of matrix material is 0.4GPa.
Claims (3)
1. a SiC-BN-C matrix material is characterized in that: with Si
3N
4, B
4C and C are raw material, obtain the SiC-BN-C matrix material by reaction in, and the weight percentage of each composition is in the raw material: Si
3N
4Powder 6.4%~63.8%, B
4C powder 2.5%~24.9% and C powder 11.9%~91.1%.
2. the preparation method of the described SiC-BN-C matrix material of claim 1, it is characterized in that it may further comprise the steps: a. gets Si by weight percentage
3N
4Powder 6.4%~63.8%, B
4C powder 2.5%~24.9% and C powder 11.9%~91.1% carry out the ball milling wet mixing; B. then mixed material is dried; C. with the material fragmentation of oven dry, in the graphite jig of packing into then and carry out precompressed; D. put into hot pressing furnace then, hot pressed sintering in vacuum or protective atmosphere, the hot pressed sintering temperature is 1700 ℃~2200 ℃, pressurization 15~30MPa, heat-insulation pressure keeping 30min~2h.
3. the preparation method of the described SiC-BN-C matrix material of claim 1, it is characterized in that may further comprise the steps: a. is with Si
3N
4Powder, B
4The C powder is a raw material with the decolorizing carbon that contains fugitive constituent, gets Si by weight percentage
3N
4Powder 6.4%~58.9%, B
4C powder 2.5%~23.2% carries out the ball milling wet mixing with the amorphous carbon powder 17.9%~91.1% that contains fugitive constituent; B. immediately with mixed drying materials; C. pack into the material fragmentation of oven dry in the steel die and apply 50~300MPa pressure pressurize 10min~2h or pressurize 10min~2h under isostatic cool pressing 50~200MPa pressure; D. put into vacuum hotpressing stove or atmosphere sintering furnace then, sintering in vacuum or protective atmosphere, temperature is elevated to 800 ℃~1400 ℃ insulation 30min~2h, and sintering temperature is 1800 ℃~2200 ℃, insulation 30min~2h.
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Cited By (13)
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CN101605408A (en) * | 2009-06-29 | 2009-12-16 | 山东金鸿集团有限公司 | A kind of method that changes resistivity of silicon-carbon rod heating body and products thereof |
CN101747039B (en) * | 2009-12-16 | 2012-07-04 | 西安交通大学 | Method for preparing high-strength high-density isotropic carbon slide plate |
CN101638319B (en) * | 2008-07-29 | 2012-12-12 | 比亚迪股份有限公司 | Aluminum nitride composite material preparation method |
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CN103755352A (en) * | 2014-01-23 | 2014-04-30 | 哈尔滨工业大学 | Preparation method of porous BN/Si3N4 composite ceramic hole sealing layer |
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CN106278283A (en) * | 2016-08-04 | 2017-01-04 | 长兴鑫宇耐火材料有限公司 | A kind of step sintering prepares the method for boron nitride ceramic material |
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CN114180971A (en) * | 2021-12-27 | 2022-03-15 | 中国科学院上海硅酸盐研究所 | Silicon nitride complex phase ceramic with low friction coefficient and preparation method and application thereof |
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Cited By (15)
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CN101638319B (en) * | 2008-07-29 | 2012-12-12 | 比亚迪股份有限公司 | Aluminum nitride composite material preparation method |
CN101605408A (en) * | 2009-06-29 | 2009-12-16 | 山东金鸿集团有限公司 | A kind of method that changes resistivity of silicon-carbon rod heating body and products thereof |
CN101747039B (en) * | 2009-12-16 | 2012-07-04 | 西安交通大学 | Method for preparing high-strength high-density isotropic carbon slide plate |
CN102825135A (en) * | 2011-06-16 | 2012-12-19 | 昆山市瑞捷精密模具有限公司 | Ferrite stainless steel stamping die with self-lubricating coating |
CN103073321A (en) * | 2013-01-21 | 2013-05-01 | 北京科技大学 | Si-B-C-N material applicable to high-temperature material and preparation method thereof |
CN103073321B (en) * | 2013-01-21 | 2014-09-17 | 北京科技大学 | Si-B-C-N material applicable to high-temperature material and preparation method thereof |
WO2015003508A1 (en) * | 2013-07-12 | 2015-01-15 | 中国科学院上海硅酸盐研究所 | Highly insulating silicon carbide/boron nitride ceramic material and preparation method therefor |
CN103755352A (en) * | 2014-01-23 | 2014-04-30 | 哈尔滨工业大学 | Preparation method of porous BN/Si3N4 composite ceramic hole sealing layer |
CN103979971A (en) * | 2014-04-09 | 2014-08-13 | 宁波东联密封件有限公司 | Liquid-phase sintered boron carbide bulletproof material and preparation method thereof |
CN103979971B (en) * | 2014-04-09 | 2015-07-08 | 宁波东联密封件有限公司 | Liquid-phase sintered boron carbide bulletproof material and preparation method thereof |
CN106278283A (en) * | 2016-08-04 | 2017-01-04 | 长兴鑫宇耐火材料有限公司 | A kind of step sintering prepares the method for boron nitride ceramic material |
CN106518084A (en) * | 2016-11-10 | 2017-03-22 | 佛山蓝途科技有限公司 | Carbide-based ceramic material and preparation technology thereof |
CN108126659A (en) * | 2018-01-10 | 2018-06-08 | 中国科学院过程工程研究所 | A kind of not fire-hazardous absorbent charcoal composite material and its preparation method and application |
CN114180971A (en) * | 2021-12-27 | 2022-03-15 | 中国科学院上海硅酸盐研究所 | Silicon nitride complex phase ceramic with low friction coefficient and preparation method and application thereof |
CN114478023A (en) * | 2022-04-07 | 2022-05-13 | 鼎固新材料(天津)有限公司 | Composite material for burner sleeve and preparation method thereof |
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