CN1686942A - Method for producing components and parts made of aluminium nitride ceramics in high thermal conductivity and high dimensional accuracy - Google Patents
Method for producing components and parts made of aluminium nitride ceramics in high thermal conductivity and high dimensional accuracy Download PDFInfo
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- CN1686942A CN1686942A CN 200510011618 CN200510011618A CN1686942A CN 1686942 A CN1686942 A CN 1686942A CN 200510011618 CN200510011618 CN 200510011618 CN 200510011618 A CN200510011618 A CN 200510011618A CN 1686942 A CN1686942 A CN 1686942A
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Abstract
The present invention provides an aluminium nitride ceramic compnoent with high heat conductivity and high size accuracy and its preparation method. Said method includes the following steps: uniformly mixing aluminium nitride AlN powder and yttrium oxide Y2O3 powder according to mixing ratio of 90-98:2:10, adding binding agent, mixing them into uniform feeding material, the volume ratio of powder in the feeding material is 54-68%, injection moulding, injection temperature is 120-170 deg.C and injection pressure is 80-140 MPa, after the injected blank body is grease-removed and presintered, sintering in the flowing nitrogen gas atmosphere in the sintering furnace with 1700-2000 deg.C, heat-insulating for 1-10 hr, so as to obtain the aluminium nitride ceramic component.
Description
Technical field
The invention belongs to the injection molding technology field, a kind of method for preparing high heat conductance and high dimensional accuracy aluminium nitride ceramics component particularly is provided.
Background technology
Aluminium nitride ceramics has high thermal conductivity, low specific inductivity and dielectric loss, electrical insulating property, high temperature resistant, corrosion-resistant, nontoxic, good mechanical performance and a series of premium propertiess such as thermal expansivity of being complementary with silicon reliably, both applicable to as ceramic material (as the substrate and the packaged material of unicircuit), again applicable to structured material (as be used for use member) at high temperature and corrosive atmosphere.Aluminium nitride ceramics has become one of research focus of modern field of new.
The forming technology of aluminium nitride ceramics has multiple, traditional forming technology such as mold pressing, hot pressing, etc. static pressure etc. be applicable to preparation block aluminium nitride ceramics material, the suitable shaping flaky material of curtain coating shaping of new development, the casting complex character component that can be shaped, but the product size precision is low, production efficiency is not high, add the shortcoming that aluminium nitride ceramics institute inherent toughness is low, fragility big, be difficult to process, the feasible aluminium nitride ceramics component that also are difficult to prepare complicated shape with the method for traditional mechanical workout.Yet, develop rapidly along with modern science and technology, demand to high heat conduction, complex character and high dimensional accuracy aluminium nitride ceramics component increases day by day, in order to give full play to the performance advantage of aluminium nitride ceramics, widen its application, the high dimensional accuracy forming technique of the complexity row shape component of research aluminium nitride ceramics is imperative.
Powder injection forming is one of at present the most popular in the world material forming technology, the maximum characteristics of this technology are to have overcome the conventional powder pressing process to be difficult to direct production complicated shape component, and the shortcoming that follow-up machining processes is long, raw material availability is low, cost is high is particularly suitable for the nearly end form mass production of thin-walled, complicated shape component.Because forming process is for flowing mold filling, shaping base density is even, therefore, and prepared product size precision height, and have the characteristics of homogeneous microstructure, superior performance.As seen, the powder injection forming technology is applied in complicated shape and the production of high dimensional accuracy aluminium nitride ceramics component, is expected the difficulty that thorough solution faces at present.
Summary of the invention
The object of the present invention is to provide a kind of method for preparing high heat conductance and high dimensional accuracy aluminium nitride ceramics component, solved the shaping problem of the high dimensional accuracy and the complicated shape component of aluminium nitride ceramics, realized high-level efficiency, low cost.
The present invention realizes by following steps:
1. the preparation of raw material powder.With aluminium nitride powder, yttrium oxide powder according to AlN: Y
2O
3=(90~98): the ratio batching of (2~10) evenly obtains raw material powder with two kinds of powder mixes.
2. the preparation of feeding.Powder that step 1 is obtained and binding agent mix makes feeding, and the shared volume of powder is 54~68% in the feeding, and the best is 58~64%; Its binding agent is that 40~70% paraffin, 10~35% high density polyethylene(HDPE)s, 10~30% polypropylene and 3~10% stearic acid are formed by weight percent.
3. injection forming.Feeding is injection forming on injector, and injection temperature is 120~170 ℃, and injection pressure is 80~140MPa.
4. degreasing and presintering.The injection base adopts the degreasing process of solvent degreasing+subsequent thermal degreasing, at first will inject base solvent degreasing 2~12 hours in trieline, then oven dry.Hot degreasing and presintering are carried out between 20~1500 ℃, and needing the time altogether is 8~20 hours.
5. sintering.After injection base degreasing and the presintering, 1700~2000 ℃ sintering temperature in sintering oven is incubated 1~10 hour, and sintered products obtains the aluminium nitride ceramics component through subsequent disposal.
The invention has the advantages that:
1, added a large amount of binding agents in injection molding process, the carbon residue of the formation after binding agent removes is to reducing the oxygen level in the aluminium nitride ceramics sintered compact, and the thermal conductivity that improves pottery is favourable.With after binding agent mixes, the feeding that obtains mixes with raw material powder, and the feeding shaping base density that injection forming obtains on injection machine is even, and product shrinks consistent during sintering.
2, sintered products does not need any mechanical process, and feeding can reuse, and material use efficiency almost reaches 100%.Adopt solvent degreasing and hot degreasing process combined, not only shortened the whole degreasing time spent, reduced risk of distortion simultaneously, improved production efficiency and yield rate, the product size precision height of being produced, the performance uniformity, and can produce in batches, cost is low.
3, adopt this method can prepare relative density 〉=99.8%, thermal conductivity reaches 200~240Wm
-1K
-1, resistivity 〉=10
14Ω m
-1, thermal expansivity≤5 * 10
-6/ ℃, the aluminium nitride ceramics component of dimensional precision within ± 0.5%.
Embodiment
Embodiment 1:
With aluminium nitride powder, yttrium oxide powder according to AlN: Y
2O
3=96: 4 batchings are medium with the dehydrated alcohol, and two kinds of powder wet method mix grindings after 5 hours, in 50 ℃ of oven dry, are pulverized then, sieved, and obtain mixed powder.Binding agent is by 60% paraffin, 25% high density polyethylene(HDPE), 10% polypropylene and 5% stearic acid are formed, the volume ratio of powder is 60%, with powder and binding agent after mixing on the SK-160 type opening rubber mixing machine, on PSJ32 type mixing extruder, granulate again, make feeding further even, feeding is injection forming on CJ80-E type injector, injection temperature is 160 ℃, injection pressure is 100MPa, the injection base of gained extracts degreasing 4 hours in trieline, under 60 ℃ of temperature dry 30 minutes again, place the atmosphere debinding furnace to carry out hot degreasing then, hot degreasing time is 8 hours, with the degreasing base 1300 ℃ carry out presintering after 1 hour, place the aluminium nitride ceramics crucible again, be incubated 6h in 1850 ℃ flowing nitrogen atmosphere, sintered products promptly obtains the aluminium nitride ceramics component through subsequent disposal.
Embodiment 2:
With aluminium nitride powder, yttrium oxide powder according to AlN: Y
2O
3=96: 4 batchings are medium with the dehydrated alcohol, and two kinds of powder wet method mix grindings after 5 hours, in 60 ℃ of oven dry, are pulverized then, sieved, and obtain mixed powder.Binding agent is by 55% paraffin, 25% high density polyethylene(HDPE), 15% polypropylene and 5% stearic acid are formed, the volume ratio of powder is 60%, with powder and binding agent after mixing on the SK-160 type opening rubber mixing machine, on PSJ32 type mixing extruder, granulate again, make feeding further even, feeding is injection forming on CJ80-E type injector, injection temperature is 150 ℃, injection pressure is 110MPa, the injection base of gained extracts degreasing 4 hours in trieline, under 60 ℃ of temperature, be placed in dry 30 minutes again and carry out hot degreasing in the atmosphere debinding furnace, hot degreasing time is 8 hours, with the degreasing base 1300 ℃ carry out presintering after 1 hour, place the aluminium nitride ceramics crucible again, insulation is 6 hours in 1850 ℃ flowing nitrogen atmosphere, and sintered products promptly obtains the aluminium nitride ceramics component through subsequent disposal.
Embodiment 3:
With aluminium nitride powder, yttrium oxide powder according to AlN: Y
2O
3=95: 5 batchings are medium with the dehydrated alcohol, and two kinds of powder wet method mix grindings after 5 hours, in 60 ℃ of oven dry, are pulverized then, sieved, and obtain mixed powder.Binding agent is by 50% paraffin, 25% high density polyethylene(HDPE), 15% polypropylene and 10% stearic acid are formed, the volume ratio of powder is 58%, with powder and binding agent after mixing on the SK-160 type opening rubber mixing machine, on PSJ32 type mixing extruder, granulate again, make feeding further even, feeding is injection forming on CJ80-E type injector, injection temperature is 160 ℃, injection pressure is 100MPa, the injection base of gained extracts degreasing 4 hours in trieline, under 60 ℃ of temperature, be placed in dry 30 minutes again and carry out hot degreasing in the atmosphere debinding furnace, hot degreasing time is 8 hours, with the degreasing base 1300 ℃ carry out presintering after 1 hour, place the aluminium nitride ceramics crucible again, insulation is 4 hours in 1900 ℃ flowing nitrogen atmosphere, and sintered products promptly obtains the aluminium nitride ceramics component through subsequent disposal.
Embodiment 4:
With aluminium nitride powder, yttrium oxide powder according to AlN: Y
2O
3=97: 3 batchings are medium with the dehydrated alcohol, and two kinds of powder wet method mix grindings after 5 hours, in 60 ℃ of oven dry, are pulverized then, sieved, and obtain mixed powder.Binding agent is by 45% paraffin, 25% high density polyethylene(HDPE), 25% polypropylene and 5% stearic acid are formed, the volume ratio of powder is 58%, with powder and binding agent after mixing on the SK-160 type opening rubber mixing machine, on PSJ32 type mixing extruder, granulate again, make feeding further even, feeding is injection forming on CJ80-E type injector, injection temperature is 160 ℃, injection pressure is 100MPa, the injection base of gained extracts degreasing 4 hours in trieline, under 60 ℃ of temperature, be placed in dry 30 minutes again and carry out hot degreasing in the atmosphere debinding furnace, hot degreasing time is 10 hours, with the degreasing base 1300 ℃ carry out presintering after 1 hour, place the aluminium nitride ceramics crucible again, insulation is 4 hours in 1900 ℃ flowing nitrogen atmosphere, and sintered products promptly obtains the aluminium nitride ceramics component through subsequent disposal.
Embodiment 5:
With aluminium nitride powder, yttrium oxide powder according to AlN: Y
2O
3=95: 5 batchings are medium with the dehydrated alcohol, and two kinds of powder wet method mix grindings after 5 hours, in 60 ℃ of oven dry, are pulverized then, sieved, and obtain mixed powder.Binding agent is by 40% paraffin, 35% high density polyethylene(HDPE), 25% polypropylene and 5% stearic acid are formed, the volume ratio of powder is 56%, with powder and binding agent after mixing on the SK-160 type opening rubber mixing machine, on PSJ32 type mixing extruder, granulate again, make feeding further even, feeding is injection forming on CJ80-E type injector, injection temperature is 150 ℃, injection pressure is 100MPa, the injection base of gained extracts degreasing 4 hours in trieline, under 60 ℃ of temperature, be placed in dry 30 minutes again and carry out hot degreasing in the atmosphere debinding furnace, hot degreasing time is 10 hours, with the degreasing base 1300 ℃ carry out presintering after 1 hour, place the aluminium nitride ceramics crucible again, insulation is 6 hours in 1850 ℃ flowing nitrogen atmosphere, and sintered products promptly obtains the aluminium nitride ceramics component through subsequent disposal.
Embodiment 6:
With aluminium nitride powder, yttrium oxide powder according to AlN: Y
2O
3=94: 6 batchings are medium with the dehydrated alcohol, and two kinds of powder wet method mix grindings after 5 hours, in 60 ℃ of oven dry, are pulverized then, sieved, and obtain mixed powder.Binding agent is by 65% paraffin, 15% high density polyethylene(HDPE), 15% polypropylene and 5% stearic acid are formed, the volume ratio of powder is 64%, with powder and binding agent after mixing on the SK-160 type opening rubber mixing machine, on PSJ32 type mixing extruder, granulate again, make feeding further even, feeding is injection forming on CJ80-E type injector, injection temperature is 160 ℃, injection pressure is 120MPa, the injection base of gained extracts degreasing 4 hours in trieline, under 60 ℃ of temperature, be placed in dry 30 minutes again and carry out hot degreasing in the atmosphere debinding furnace, hot degreasing time is 8 hours, with the degreasing base 1300 ℃ carry out presintering after 1 hour, place the aluminium nitride ceramics crucible again, insulation is 8 hours in 1800 ℃ flowing nitrogen atmosphere, and sintered products promptly obtains the aluminium nitride ceramics component through subsequent disposal.
Embodiment 7:
With aluminium nitride powder, yttrium oxide powder according to AlN: Y
2O
3=93: 7 batchings are medium with the dehydrated alcohol, and two kinds of powder wet method mix grindings after 5 hours, in 60 ℃ of oven dry, are pulverized then, sieved, and obtain mixed powder.Binding agent is by 60% paraffin, 20% high density polyethylene(HDPE), 15% polypropylene and 5% stearic acid are formed, the volume ratio of powder is 62%, with powder and binding agent after mixing on the SK-160 type opening rubber mixing machine, on PSJ32 type mixing extruder, granulate again, make feeding further even, feeding is injection forming on CJ80-E type injector, injection temperature is 160 ℃, injection pressure is 110MPa, the injection base of gained extracts degreasing 4 hours in trieline, under 60 ℃ of temperature, be placed in dry 30 minutes again and carry out hot degreasing in the atmosphere debinding furnace, hot degreasing time is 8 hours, with the degreasing base 1300 ℃ carry out presintering after 1 hour, place the aluminium nitride ceramics crucible again, insulation is 6 hours in 1850 ℃ flowing nitrogen atmosphere, and sintered products promptly obtains the aluminium nitride ceramics component through subsequent disposal.
Claims (2)
1. method for preparing high heat conductance and high dimensional accuracy aluminium nitride ceramics component is characterized in that: concrete technology is:
A. the preparation of raw material powder: with aluminium nitride powder, yttrium oxide powder according to AlN: Y
2O
3=(90~98): the ratio batching of (2~10) evenly obtains raw material powder with two kinds of powder mixes;
B. the preparation of feeding: powder that step a is obtained and binding agent mix makes feeding, and the shared volume of powder is 54~68% in the feeding; Its binding agent is that 40~70% paraffin, 15~35% high density polyethylene(HDPE)s, 10~30% polypropylene and 3~10% stearic acid are formed by weight percent;
C. injection forming: feeding is injection forming on injector, and injection temperature is 120~170 ℃, and injection pressure is 80~140MPa;
D. degreasing and presintering: the injection base adopts solvent degreasing to add the degreasing process of subsequent thermal degreasing, at first will inject base solvent degreasing 2~12 hours in trieline, then oven dry; Hot degreasing and presintering are carried out between 20~1500 ℃, need 8~20 hours time altogether;
E. sintering: after injection base degreasing and the presintering, 1700~2000 ℃ sintering temperature in sintering oven is incubated 1~10 hour, and sintered products obtains the aluminium nitride ceramics component through subsequent disposal.
2, method according to claim 1 is characterized in that: the shared volume of powder is 58~64% in the feeding.
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CN 200510011618 CN1275905C (en) | 2005-04-22 | 2005-04-22 | Method for producing components and parts made of aluminium nitride ceramics in high thermal conductivity and high dimensional accuracy |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102502539A (en) * | 2011-11-08 | 2012-06-20 | 中国计量学院 | Method for preparing yttrium-doped nano aluminum nitride powder |
CN101698613B (en) * | 2009-06-05 | 2012-12-26 | 西安交通大学 | Degreasing method used for transparent alumina ceramic injection molding product |
CN107915490A (en) * | 2017-12-21 | 2018-04-17 | 洛阳名力科技开发有限公司 | A kind of ejection forming method of aluminium nitride ceramics |
CN112028636A (en) * | 2020-08-26 | 2020-12-04 | 北京科技大学 | Preparation method of high-thermal-conductivity aluminum nitride/graphene composite ceramic device |
-
2005
- 2005-04-22 CN CN 200510011618 patent/CN1275905C/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101698613B (en) * | 2009-06-05 | 2012-12-26 | 西安交通大学 | Degreasing method used for transparent alumina ceramic injection molding product |
CN102502539A (en) * | 2011-11-08 | 2012-06-20 | 中国计量学院 | Method for preparing yttrium-doped nano aluminum nitride powder |
CN102502539B (en) * | 2011-11-08 | 2013-04-10 | 中国计量学院 | Method for preparing yttrium-doped nano aluminum nitride powder |
CN107915490A (en) * | 2017-12-21 | 2018-04-17 | 洛阳名力科技开发有限公司 | A kind of ejection forming method of aluminium nitride ceramics |
CN112028636A (en) * | 2020-08-26 | 2020-12-04 | 北京科技大学 | Preparation method of high-thermal-conductivity aluminum nitride/graphene composite ceramic device |
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