CN103695720B - The high-strength nickel niobium alloy material that a kind of chromium, tantalum strengthen - Google Patents

The high-strength nickel niobium alloy material that a kind of chromium, tantalum strengthen Download PDF

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CN103695720B
CN103695720B CN201310670043.6A CN201310670043A CN103695720B CN 103695720 B CN103695720 B CN 103695720B CN 201310670043 A CN201310670043 A CN 201310670043A CN 103695720 B CN103695720 B CN 103695720B
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niobium alloy
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CN103695720A (en
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叶绿均
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Gangxi Shenglong Metallurgical Co., Ltd.
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朱育盼
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Abstract

The invention provides the high-strength nickel niobium alloy material of a kind of chromium, tantalum enhancing, be prepared from by batching, batch mixing, pressed compact and hot pressed sintering step.Chromium, tantalum are incorporated into the new approaches in alloy as useful alloy element, meanwhile, niobium element reduces the content of Aluminum in Alloy, ensures the plasticity and toughness that alloy has had; By the means of hot pressed sintering, obtain the low-cost high-strength alloy material of high strength and wear resisting property; By adding lanthanum and praseodymium element, refinement alloy structure, further enhancing alloy strength, and makes alloy keep good room temperature and mechanical behavior under high temperature.

Description

The high-strength nickel niobium alloy material that a kind of chromium, tantalum strengthen
Technical field
The present invention relates to ickel-niobium alloy Material Field, specifically, relate to a kind of high-strength nickel niobium alloy material.
Background technology
In Aeronautics and Astronautics industrial expansion process, the development of advanced material is most important for the progress of Aeronautics and Astronautics technology.Based on the needs of save energy and decreasing pollution, require that Aeronautics and Astronautics structured material is not only high temperature resistant but also will have high specific strength and high specific stiffness.Ickel-niobium alloy, owing to having high-melting-point, high specific strength and specific modulus, low creep speed, relatively little density, the preferably advantage such as heat conductivility and good high temperature oxidation resistance, makes one of ickel-niobium alloy potentiality candidate material being regarded as high temperature alloy in lightweight.But the temperature-room type plasticity that ickel-niobium alloy is poor and hot strength limit its widespread use.At present, between synthesis and preparative nickel niobium metal, the method for compound and alloy thereof has a lot, such as, and alloy melting method, plasma agglomeration method, combustion synthesis method, mechanical alloying method and hot isostatic pressing method etc.But these methods more or less all come with some shortcomings.
Between nickel niobium metal, the heterogeneous microstructure of compound is very stable, and formation can be higher, maximumly can reach 82kJ/mol.In ickel-niobium alloy evolution, alloying and composite technology improve the tissue of ickel-niobium alloy as two kinds of most important means always and improve the performance of ickel-niobium alloy.In fact, people never stop about the exploration of metallic element to the affecting laws of ickel-niobium alloy structure and properties, but metallic element is still not clear the affecting laws of ickel-niobium alloy intensity and plasticity and mechanism of action thereof, still there is dispute.
In addition, current ceramic particle also needs further announcement to the affecting laws of ickel-niobium alloy performance and mechanism, is still the current world-famous puzzle being badly in need of solving in the world about the research improving ickel-niobium alloy intensity and plasticity.Be still not clear about metallic element kind, content and interior raw ceramic particle structure, size, shape, quantity, the influencing mechanism of distribution to ickel-niobium alloy intensity and plasticity.A lot of researchist attempts the complex phase ceramic adding some amount in ickel-niobium alloy, to obtaining good comprehensive mechanical property.Such as, with Ni powder, Nb powder, carbon black and Al powder for raw material, the nickel niobium based composites prepared, because adding of composite ceramics makes ickel-niobium alloy intensity increase significantly, after HIP process, its intensity obtains further raising, but the raising of its hot strength is not fairly obvious.
Summary of the invention
In order to solve the problems of the technologies described above, the invention provides a kind of high-strength nickel niobium alloy material, this ickel-niobium alloy has the performances such as high-melting-point, low density, high-yield strength and breaking tenacity.
The technological thought of high-strength nickel niobium alloy material of the present invention is: niobium is widely used stable element in nickel-base alloy, niobium in nickel-base alloy is present in α phase in substitutional atom mode, adding of niobium can reduce fusing point and improve beta transus temperature, all plays strengthening effect in room temperature and high temperature.Niobium facilitates the phase mutual diffusion of the elements such as nickel, aluminium and carbon in sintering process, is conducive to formation and the refinement of second-phase.
Adding of chromium facilitates sintering, and refinement alloy structure, improves the mechanical property of alloy.According to alloying element on the impact of Ni-based linkage force and the interactional feature with nickel element, adding of tantalum can significantly improve alloy high-temp intensity.And the adding because its velocity of diffusion is slow and suppress nickel crystallite to be grown up of lanthanum and praseodymium, further refinement alloy structure, and make alloy keep good room temperature and mechanical behavior under high temperature.
The technical solution used in the present invention is: a kind of high-strength nickel niobium alloy material, it is characterized in that: described ickel-niobium alloy contains the component of following weight per-cent: the Nb of 6.0 ~ 8.0%, the Cr of 2.0 ~ 5.0%, the C of 0.5 ~ 1.0%, the Ta of 1.0 ~ 3.0%, the Al of 1.0 ~ 2.0%, the La of 0.5 ~ 1%, the Pr of 0.5 ~ 1%, surplus is nickel and inevitable impurity.
The preparation method of described ickel-niobium alloy material, comprises the following steps:
(1) prepare burden: take the nickel powder of respective amount, niobium powder, aluminium powder, Graphite Powder 99, chromium powder, tantalum powder, lanthanum powder and praseodymium powder according to described weight percent, prepare burden;
(2) batch mixing: the powder obtained after described batching and Stainless Steel Ball are put into mixing tank by suitable ratio of grinding media to material, at rotating speed be 200 ~ 300r/min mixer on carry out batch mixing, mixing time is 4 ~ 6 hours, obtains mixed powder;
(3) pressed compact: described mixed powder is pressed into base on a hydraulic press, and compacting pressure is 450 ~ 550MPa, obtaining diameter after pressed compact is 15 ~ 20mm, and height is the cylindrical green compact material of 20 ~ 30mm;
(4) hot pressed sintering: described pressed compact material is placed in graphite jig, then the described graphite jig that described pressed compact material is housed is put into heat pressing forming device, heat with suitable heat-up rate, be incubated when temperature reaches 1000 ~ 1200 DEG C, and start to apply pressure, maintain described pressure and holding temperature 30 ~ 60s, then cool to room temperature with the furnace, finally obtain ickel-niobium alloy product.
In described batching step, the powder size of above-mentioned each component is: nickel powder 300 ~ 500 order, niobium powder 400 ~ 600 order, aluminium powder 400 ~ 600 order, Graphite Powder 99 1000 ~ 2000 order, chromium powder 400 ~ 600 order, tantalum powder 400 ~ 600 order, lanthanum powder 300 ~ 500 order, and praseodymium powder 300 ~ 500 order.
In described batch mixing step, described powder and Stainless Steel Ball put into mixing tank by ratio of grinding media to material 5 ~ 10: 1.
In described hot pressed sintering step, be evacuated to 60 ~ 80Pa, heat with the heat-up rate of 40 ~ 60 DEG C/min, be incubated when temperature reaches 1000 ~ 1200 DEG C, and start to apply pressure, pressure is 40 ~ 60MPa.
The yield strength of the final ickel-niobium alloy product obtained is 500 ~ 600MPa, and breaking tenacity is 1200 ~ 1300MPa, and hardness is 450 ~ 550HV.
Advantage of the present invention is: the present invention proposes new approaches chromium, tantalum be incorporated into as useful alloy element in alloy, meanwhile, niobium element reduces the content of Aluminum in Alloy, ensures the plasticity and toughness that alloy has had; By the means of hot pressed sintering, obtain the low-cost high-strength alloy material of high strength and wear resisting property; By adding lanthanum and praseodymium element, refinement alloy structure, further enhancing alloy strength, and makes alloy keep good room temperature and mechanical behavior under high temperature.And overcome the shortcomings such as nickel-base alloy wears no resistance, Young's modulus is low, to expansion nickel-bass alloy material, in the field such as aerospace and civilian industry, application will have huge pushing effect.
Embodiment
Below in conjunction with embodiment and comparative example, the present invention is described in more detail.
Embodiment 1:
High-strength nickel niobium alloy material contains the component of following weight per-cent: the Nb of 6.0%, the Cr of 2.0%, the C of 1.0%, the Ta of 1.0%, the Al of 2.0%, the La of 0.8%, the Pr of 1%, and surplus is nickel and inevitable impurity.First, the nickel powder of respective amount, niobium powder, aluminium powder, Graphite Powder 99, chromium powder, tantalum powder, lanthanum powder and praseodymium powder is taken according to described weight percent, prepare burden, and the powder size of each component is: nickel powder 400 order, niobium powder 400 order, aluminium powder 400 order, Graphite Powder 99 2000 order, chromium powder 600 order, tantalum powder 400 order, lanthanum powder 500 order, and praseodymium powder 500 order.The powder obtained after described batching and Stainless Steel Ball are put into mixing tank by ratio of grinding media to material 5: 1, at rotating speed be 250r/min mixer on carry out batch mixing, mixing time is 4 hours, obtains mixed powder.Described mixed powder is pressed into base on a hydraulic press, and compacting pressure is 550MPa, and obtaining diameter after pressed compact is 20mm, and height is the cylindrical green compact material of 20mm.Described pressed compact material is placed in graphite jig, then the described graphite jig that described pressed compact material is housed is put into heat pressing forming device, be evacuated to 60Pa, heat with the heat-up rate of 40 DEG C/min, be incubated when temperature reaches 1200 DEG C, and start to apply pressure, pressure is 40MPa, maintains described pressure and holding temperature 30s, then room temperature is cooled to the furnace, finally obtaining yield strength is 550MPa, and breaking tenacity is 1200MPa, and hardness is the ickel-niobium alloy product of 450HV.
Embodiment 2:
High-strength nickel niobium alloy material contains the component of following weight per-cent: the Nb of 7.0%, the Cr of 4.0%, the C of 1.0%, the Ta of 2.0%, the Al of 1.0%, the La of 0.5%, the Pr of 1%, and surplus is nickel and inevitable impurity.First, the nickel powder of respective amount, niobium powder, aluminium powder, Graphite Powder 99, chromium powder, tantalum powder, lanthanum powder and praseodymium powder is taken according to described weight percent, prepare burden, and the powder size of each component is: nickel powder 500 order, niobium powder 600 order, aluminium powder 400 order, Graphite Powder 99 1000 order, chromium powder 600 order, tantalum powder 400 order, lanthanum powder 500 order, and praseodymium powder 400 order.The powder obtained after described batching and Stainless Steel Ball are put into mixing tank by ratio of grinding media to material 10: 1, at rotating speed be 300r/min mixer on carry out batch mixing, mixing time is 6 hours, obtains mixed powder.Described mixed powder is pressed into base on a hydraulic press, and compacting pressure is 450MPa, and obtaining diameter after pressed compact is 15mm, and height is the cylindrical green compact material of 20mm.Described pressed compact material is placed in graphite jig, then the described graphite jig that described pressed compact material is housed is put into heat pressing forming device, be evacuated to 80Pa, heat with the heat-up rate of 50 DEG C/min, be incubated when temperature reaches 1100 DEG C, and start to apply pressure, pressure is 50MPa, maintains described pressure and holding temperature 50s, then room temperature is cooled to the furnace, finally obtaining yield strength is 500MPa, and breaking tenacity is 1250MPa, and hardness is the ickel-niobium alloy product of 500HV.
Embodiment 3:
High-strength nickel niobium alloy material contains the component of following weight per-cent: the Nb of 8.0%, the Cr of 5.0%, the C of 0.5%, the Ta of 3.0%, the Al of 1.5%, the La of 1%, the Pr of 0.5%, and surplus is nickel and inevitable impurity.First, the nickel powder of respective amount, niobium powder, aluminium powder, Graphite Powder 99, chromium powder, tantalum powder, lanthanum powder and praseodymium powder is taken according to described weight percent, prepare burden, and the powder size of each component is: nickel powder 500 order, niobium powder 500 order, aluminium powder 600 order, Graphite Powder 99 1000 order, chromium powder 500 order, tantalum powder 500 order, lanthanum powder 300 order, and praseodymium powder 300 order.The powder obtained after described batching and Stainless Steel Ball are put into mixing tank by ratio of grinding media to material 8: 1, at rotating speed be 200r/min mixer on carry out batch mixing, mixing time is 5 hours, obtains mixed powder.Described mixed powder is pressed into base on a hydraulic press, and compacting pressure is 500MPa, and obtaining diameter after pressed compact is 20mm, and height is the cylindrical green compact material of 30mm.Described pressed compact material is placed in graphite jig, then the described graphite jig that described pressed compact material is housed is put into heat pressing forming device, be evacuated to 70Pa, heat with the heat-up rate of 60 DEG C/min, be incubated when temperature reaches 1000 DEG C, and start to apply pressure, pressure is 60MPa, maintains described pressure and holding temperature 60s, then room temperature is cooled to the furnace, finally obtaining yield strength is 600MPa, and breaking tenacity is 1300MPa, and hardness is the ickel-niobium alloy product of 550HV.
Comparative example 1:
By the ickel-niobium alloy identical with embodiment of the present invention moiety, after batching, batch mixing and pressed compact, described pressed compact material is placed in graphite jig, then the described graphite jig that described pressed compact material is housed is put into heat pressing forming device, be evacuated to 60 ~ 80Pa, heat with the heat-up rate of 40 ~ 60 DEG C/min, holding temperature is brought up to more than 1300 DEG C or be reduced to less than 1000, and adjust applied pressure and be greater than 100Pa or be less than 40Pa or do not apply pressure, cool to room temperature with the furnace after keeping same time, finally obtain ickel-niobium alloy product.The yield strength of the final ickel-niobium alloy product obtained is lower than 400MPa, and breaking tenacity is lower than 1100MPa, and hardness is lower than 400HV.
Comparative example 2:
Change the component of embodiment of the present invention ickel-niobium alloy, with element substitution Cr, Ta and rare earth elements such as Zn, Ti, Mg of routine, after then adopting same batching, batch mixing, pressed compact and hot pressed sintering step, the final ickel-niobium alloy product obtained, its yield strength is 200 ~ 350MPa, breaking tenacity is 800 ~ 1000MPa, and hardness is 250 ~ 300HV.
As can be seen from embodiment 1-3 and comparative example 1 and 2, by utilizing a kind of high-strength nickel niobium alloy material according to the embodiment of the present invention, chromium, tantalum are incorporated into the new approaches in alloy as useful alloy element, simultaneously, niobium element reduces the content of Aluminum in Alloy, ensures the plasticity and toughness that alloy has had; By the means of hot pressed sintering, obtain the low-cost high-strength alloy material of high strength and wear resisting property; By adding lanthanum and praseodymium element, refinement alloy structure, further enhancing alloy strength, and makes alloy keep good room temperature and mechanical behavior under high temperature.
Although illustrate and describe embodiments of the invention, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present invention and aim, scope of the present invention is by claim and equivalents thereof.

Claims (4)

1. a high-strength nickel niobium alloy material, it is characterized in that: described ickel-niobium alloy contains the component of following weight per-cent: the Nb of 6.0 ~ 8.0%, the Cr of 2.0 ~ 5.0%, the C of 0.5 ~ 1.0%, the Ta of 1.0 ~ 3.0%, the Al of 1.0 ~ 2.0%, the La of 0.5 ~ 1%, the Pr of 0.5 ~ 1%, surplus is nickel and inevitable impurity;
The preparation method of described ickel-niobium alloy material, comprises the following steps:
(1) prepare burden: take the nickel powder of respective amount, niobium powder, aluminium powder, Graphite Powder 99, chromium powder, tantalum powder, lanthanum powder and praseodymium powder according to described weight percent, prepare burden;
(2) batch mixing: the powder obtained after described batching and Stainless Steel Ball are put into mixing tank by suitable ratio of grinding media to material, at rotating speed be 200 ~ 300r/min mixer on carry out batch mixing, mixing time is 4 ~ 6 hours, obtains mixed powder;
(3) pressed compact: described mixed powder is pressed into base on a hydraulic press, and compacting pressure is 450 ~ 550MPa, obtaining diameter after pressed compact is 15 ~ 20mm, and height is the cylindrical green compact material of 20 ~ 30mm;
(4) hot pressed sintering: described pressed compact material is placed in graphite jig, then the described graphite jig that described pressed compact material is housed is put into heat pressing forming device, heat with suitable heat-up rate, be incubated when temperature reaches 1000 ~ 1200 DEG C, and start to apply pressure, maintain described pressure and holding temperature 30 ~ 60s, then cool to room temperature with the furnace, finally obtain ickel-niobium alloy product;
In described batching step, the powder size of above-mentioned each component is: nickel powder 300 ~ 500 order, niobium powder 400 ~ 600 order, aluminium powder 400 ~ 600 order, Graphite Powder 99 1000 ~ 2000 order, chromium powder 400 ~ 600 order, tantalum powder 400 ~ 600 order, lanthanum powder 300 ~ 500 order, and praseodymium powder 300 ~ 500 order.
2. a kind of high-strength nickel niobium alloy material as claimed in claim 1, it is characterized in that: in described batch mixing step, described powder and Stainless Steel Ball put into mixing tank by ratio of grinding media to material 5 ~ 10: 1.
3. a kind of high-strength nickel niobium alloy material as claimed in claim 1, it is characterized in that: in described hot pressed sintering step, be evacuated to 60 ~ 80Pa, heat with the heat-up rate of 40 ~ 60 DEG C/min, be incubated when temperature reaches 1000 ~ 1200 DEG C, and start to apply pressure, pressure is 40 ~ 60MPa.
4. a kind of high-strength nickel niobium alloy material as claimed in claim 1, is characterized in that: the yield strength of final obtained ickel-niobium alloy product is 500 ~ 600MPa, and breaking tenacity is 1200 ~ 1300MPa, and hardness is 450 ~ 550HV.
CN201310670043.6A 2013-12-09 2013-12-09 The high-strength nickel niobium alloy material that a kind of chromium, tantalum strengthen Expired - Fee Related CN103695720B (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111057907A (en) * 2019-12-21 2020-04-24 江苏骏茂新材料科技有限公司 Preparation method of nickel-based high-temperature-resistant alloy material

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN86108748A (en) * 1986-12-27 1988-08-10 北京钢铁学院 Improve the novel method of high alloyage casting alloy performance
CN102808111A (en) * 2012-08-24 2012-12-05 杨学焦 Preparation method for nickel-based superalloy for exhaust valve
CN102808113A (en) * 2012-08-24 2012-12-05 叶绿均 Process for preparing nickel-base superalloy

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS62267439A (en) * 1986-05-14 1987-11-20 Kobe Steel Ltd Nickel-base alloy for outer shell material for titanium or titanium alloy
US4846885A (en) * 1987-11-27 1989-07-11 Haynes International, Inc. High molybdenum nickel-base alloy

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN86108748A (en) * 1986-12-27 1988-08-10 北京钢铁学院 Improve the novel method of high alloyage casting alloy performance
CN102808111A (en) * 2012-08-24 2012-12-05 杨学焦 Preparation method for nickel-based superalloy for exhaust valve
CN102808113A (en) * 2012-08-24 2012-12-05 叶绿均 Process for preparing nickel-base superalloy

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111057907A (en) * 2019-12-21 2020-04-24 江苏骏茂新材料科技有限公司 Preparation method of nickel-based high-temperature-resistant alloy material

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