CN1258756A - High-temperature high-strength antioxidant anticorrosive austenite alloy - Google Patents
High-temperature high-strength antioxidant anticorrosive austenite alloy Download PDFInfo
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Abstract
The high-temperature Fe-Ni-Al austenite alloy consists of Ni 34-46%, Al 2.5-8%, reinforcing element 0.2-5% and at least one kind of additional elements other than Fe. The reinforcing element may be one or more of Co, Mo, W and Nb; and the additional elements includes C 0-0.3%, Si 0-2.5%, Ti 0-2.5%, Y 0-0.5%, B 0-0.21% and RE 0-0.6%. The alloy of the present invention may be used for long period in the high temperature of 1200-1310 deg.c and up to 1360 deg.c and has high-temperature strength.
Description
The present invention relates to a kind of high-strength antioxidant anticorrosive austenite alloy material, belong to novel material and metallurgical technology field.
Ni-based or ferronickel base high-temperature oxidation resistant alloy contains a large amount of nickel and forms high temperature austenite, to guarantee that material at high temperature has good plasticity and intensity, all to contain simultaneously to have an appointment 20% chromium, so that it forms fine and close Cr in the metallic surface
2O
3Protective layer, exemplary alloy has GH30, GH39, GH140, Inconel600, Inconel601 etc. both at home and abroad.But when use temperature during greater than 1150~1200 ℃, Cr
2O
3Peel off seriously, so above-mentioned superalloy maximum operation (service) temperature is lower than 1200 ℃.
Afterwards, people discovered, Al
2O
3Protective layer has the Cr of ratio
2O
3The antioxidant anticorrosive ability that protective layer is better, when temperature more than 1200~1300 ℃ the time, Al
2O
3Protective layer is still incrust.According to this principle, since the eighties, develop the high-temperature oxidation resistant corrosion superalloy that two kinds of use temperatures surpass 1200 ℃ abroad, promptly the П 747 (35Fe-45Ni-17Cr-3Al) of Alloy214 of the U.S. (76Ni-16Cr-4Al-3Fe) and USSR (Union of Soviet Socialist Republics) domestic developed in 94 years a kind of can be at 1200~1300 ℃ high temperature oxidation resisting resistant alloy 3YC52 (48Ni-28Fe-18Cr-6Al).Above-mentioned three kinds of alloys source is respectively Oxid Met, 1989,31 (2): 145; ж А Р О П Р О Ч Н Ы Е С Т А Л И Ц С П Л А В Ы 1983,180~182; China's material seminar in 94 autumns collection of thesis, III volume type material and sufacing, 470~475.Above-mentioned three kinds of alloys are both at home and abroad at present can be at the resistance to oxidation corrosion superalloy of 1200~1300 ℃ of uses, and wherein the 3YC52 best performance is embodied in maximum operation (service) temperature and hot strength.
But, above-mentionedly can still there be two main drawbacks greater than the resistance to oxidation of 1200 ℃ of uses corrosion superalloy: the one, the hot strength of above-mentioned alloy is lower, limited the use field greatly, as at the use occasion of the higher hot strength of ask for something (high temperature member that high-temperature oxidation resistant mould, high temperature hot-blast furnace, requirement of strength that wind-force is bigger are higher etc.); The 2nd, above-mentioned alloy all contains a large amount of metallic nickels, cost is very high, and, because carbon content is very low, must use chromium metal, thereby cost is further improved, also limited the use range of material like this from cost consideration, as alloys such as the Cr25Ni20, the Cr25Ni35 that are difficult to replace on radiator tube generally using now, Cr25Ni45 at many industrial heat treatment furnaces.
The objective of the invention is to obtain a kind ofly to have high-temp and high-strength, excellent high temperature resistance oxidation corrosion simultaneously, can use and the high-temp and high-strength austenite resistance to oxidation resistant alloy of new generation of lower cost greater than 1200 ℃, the life-time service temperature is 1200~1310 ℃, and maximum operation (service) temperature is 1360 ℃.Comprise distortion and casting alloy two portions.
The high-temperature high-strength antioxidant anticorrosive austenite alloy that the present invention proposes, according to the antioxidant anticorrosive and the obdurability theory of alloy, having proposed Fe-Ni-Cr-Al is the high alumina high-strength antioxidant anticorrosive austenite alloy, is made up of following chemical ingredients:
Main addition element and at least a additional alloying element, described main added elements is Ni, Fe, Cr, Al and strengthening element, its weight percent consists of:
Ni 34~46, and Cr 15~23, and Al 2.5~7.5, and strengthening element is Co, Mo, W and Nb, and weight percentage is: Co 0~4, and W 0~2, and Mo 0~2, and Nb 0~2, but strengthening element one or more add simultaneously, but its total amount is 0.2~5%.
Described additional alloying element and weight percentage thereof consist of:
C 0~0.3, and Si 0~2.5, and Ti 0~2.5, and Y 0~0.5, and B 0~0.2, and RE 0~0.6, and all the other are Fe.
The effect of each principal element among the present invention:
Ni: austenite former, guarantee that alloy forms stable high temperature austenite, i.e. γ phase sosoloid, thus guarantee alloy high-temp plasticity.
Cr, Al:Cr and Al are the principal elements of high temperature oxidation corrosion resistance, when high temperature and oxygen form complete compact protective film (Al
2O
3, Cr
2O
3).Cr content should not be lower than 15%, if but greater than 23% o'clock, it acted on regard to not obvious and processing difficulties.When use temperature during greater than 1150~1200 ℃, Cr
2O
3Peel off seriously,, under Cr content condition with higher, add the Al that 2.5~7.5% Al can make alloy formation complete sum densification under greater than 1200 ℃ of high temperature so in alloy of the present invention, added 2.5~7.5% Al
2O
3Protective membrane, make alloy can be under 1200~1310 ℃ of high temperature oxidation and corrosions life-time service, maximum operation (service) temperature reaches 1360 ℃.
Strengthening element (Co, Mo, W and Nb): of the present invention one big characteristics are guaranteeing under the alloy high-temp antioxidant anticorrosive prerequisite, suitably add a certain amount of above-mentioned strengthening element, improve the heat resistance energy of alloy by the mode of solution strengthening, but its total amount should be greater than 5%, and adding a kind of or several and concrete content etc. must determine according to the use temperature and the atmosphere of alloy, reaches best result of use.
The effect of additional elements:
Y, B, RE: be mainly and purify crystal boundary, deoxidation, desulfuration, elimination detrimental impurity and raising material at high temperature creep-resistant property.
C: forming carbide plays strengthening effect on the one hand, can improve the flowability of casting alloy among the present invention on the other hand.
Ti:,, avoid forming Cr in this alloy so the Ti that adds can form TiC because the bonding force of Ti and C obviously is better than the bonding force of Cr and C
7C
3Deng, thereby the Cr content in the assurance alloy.
Alloy of the present invention obviously is better than domestic and international similar alloy in use temperature, high temperature oxidation corrosion resistance performance, over-all properties, and the salient features contrast sees Table 1.
The contrast of table 1 superalloy of the present invention and similar high temperatures typical alloy
In the table: σ
bTensile strength, σ
0.2Yield strength, δ
5Unit elongation, the relative reduction in area.
Alloy species | This alloy is bright | ??????????ЗП?747 | ????3YC?52 | |||||||||
Test temperature T, ℃ | ?σ b?MPa | ?σ 0.2?MPa | ?δ 5?% | ? ?% | ?σ b?MPa | ?σ 0.2?MPa | ?δ 5?% | ? ?% | ?σ b?MPa | ?σ 0.2?MPa | ?δ 5?% | ? ?% |
????700 ????800 ????900 ????1000 ????1100 ????1200 | ?610 ?310 ?110 ?60 ?40 ?30 | ?400 ?280 ?70 ?30 ?25 ?20 | ?35 ?80 ?100 ?120 ?130 ?115 | ?30 ?60 ?80 ?95 ?95 ?90 | ?150 ?70 ?50 ?30 ?20 | ?100 ?60 ?30 ?20 | ?30 ?35 ?40 ?70 ?90 | ?30 ?35 ?40 ?55 ?75 | ?580 ?280 ?100 ?50 ?35 ?25 | ?400 ?240 ?60 ?28 ?24 ?15 | ?30 ?80 ?110 ?125 ?130 ?120 | ?30 ?70 ?90 ?95 ?96 ?92 |
Alloy of the present invention can be under up to 1200~1310 ℃ of high temperature life-time service, maximum operation (service) temperature is 1360 ℃, also has very high hot strength simultaneously.Its use temperature, hot strength and over-all properties are better than both at home and abroad at present comprehensively can be greater than the high-temperature oxidation resistant superalloy (Alloy214, З П 747,3YC52) that uses more than 1200 ℃, and cost reduces.
Superalloy of the present invention is widely used in various protecting tubes, high-temperature fuel gas pipeline, stove structure body, radiator tube, thermal sensor, high temperature nozzle, high-temperature oxidation resistant corrosion mould and other high temperature service etc. that industries such as metallurgy, machinery, petrochemical industry, mine, pottery, glass are used.
Casting alloy technology of the present invention is:
Adopt vacuum or non-vacuum induction furnace to carry out melting.Pouring temperature is 1600~1650 ℃, the cold or air cooling of casting back mould, by particular case can directly use after 1150~1200 ℃ of solution treatment or solution treatment add timeliness and strengthen the back and use.Ageing strengthening: 600~800 ℃ of temperature are incubated 4~10 hours.
Deforming alloy technology of the present invention is:
Adopt vacuum or non-vacuum induction furnace to carry out melting.Pouring temperature is 1600~1650 ℃, the cold or air cooling of casting back mould.Then by hot-work (forging, extruding, heat wear etc.), solid solution conversion processing and cold deformation technology, make the tubing, sheet material, bar of all size etc.Hot processing temperature is 1150~1200 ℃, and the solid solution softening temperature is 1150~1200 ℃, and the maximum cold degree of deformation is 50~80%.
Below be three embodiment of composition range according to the present invention, sequence number 1~9 is alloy of the present invention in the table, using at present simultaneously, domestic and international three kinds of energy contrast at the oxidation-resistant alloy (Alloy214, З П 747,3YC52) greater than 1200 ℃ of uses, its concrete and chemical ingredients sees Table 2, room temperature and mechanical behavior under high temperature see Table 3, and high-temperature oxidation resistance sees Table 4.
The chemical ingredients (wt%) of table 2 alloy embodiment of the present invention and comparative alloy
Element | ??Ni | ??Cr | ??Al | ??Co | ??Mo | ?W | ??Y | ?RE | ?Si | ???C | ??Ti | ??Nb | ??Fe | |
Embodiment | ???1 | ??45 | ??18 | ??5.5 | ??2 | ??0.2 | ?0.2 | ??0.15 | ?0.2 | ???0.1 | Surplus | |||
???2 | ??38 | ??20 | ??6 | ??3 | ??2 | Surplus | ||||||||
???3 | ??35 | ??22 | ??7 | ??4 | ??1 | ?0.2 | Surplus | |||||||
???4 | ??38 | ??23 | ??3 | ??0.4 | ??0.3 | ?1.7 | ??0.3 | ?2.0 | ???0.15 | Surplus | ||||
???5 | ??43 | ??15 | ??7.5 | ??2.5 | ??0.2 | ?0.5 | ?0.5 | Surplus | ||||||
???6 | ??43 | ??20 | ??6 | ??1.9 | ?0.2 | ??0.1 | ?1.5 | ???0.1 | ?1.5 | Surplus | ||||
???7 | ??42 | ??19 | ??4.5 | ??1.5 | ??0.9 | ?0.8 | ?0.1 | ?1 | ???0.11 | ?2 | Surplus | |||
???8 | ??40 | ??21 | ??6 | ??2 | ??1.2 | ???0.2 | ??0.5 | Surplus | ||||||
???9 | ??41 | ??21 | ??6.5 | ??2.5 | ?2 | ??0.12 | ??1.5 | Surplus | ||||||
Comparative alloy | ???Alloy21 ???4 | Surplus | ??18 | ??4.5 | Surplus | |||||||||
??ЗП747 | ??45 | ??18 | ??3 | Surplus | ||||||||||
??3YC52 | ??48 | ??18 | ??5.5 | Surplus |
The room temperature and the mechanical behavior under high temperature of table 3 alloy embodiment of the present invention and comparative alloy
Brought forward
The high-temperature oxidation resistance unit of table 4 alloy embodiment of the present invention and comparative alloy: gram/square centimeter (g/cm
2)
Temperature, ℃ | ????σ b????MPa | ????σ 0.2????MPa | ????δ ????% | ???? ????% | ||
????20 | ????720 | ????310 | ????30 | ????45 |
Embodiment | ????1 | ????900 | ????110 | ????70 | ????100 | ????80 |
????1200 | ????30 | ????20 | ????115 | ????90 | ||
????2 | ????20 | ????730 | ????320 | ????29 | ????43 | |
????900 | ????140 | ????85 | ????95 | ????80 | ||
????1200 | ????32 | ????22 | ????105 | ????85 | ||
????3 | ????20 | ????750 | ????330 | ????28 | ????42 | |
????900 | ????145 | ????90 | ????115 | ????95 | ||
????1200 | ????35 | ????25 | ????120 | ????95 | ||
????4 | ????20 | ????730 | ????310 | ????29 | ????44 | |
????900 | ????155 | ????95 | ????105 | ????85 | ||
????1200 | ????32 | ????24 | ????115 | ????90 | ||
????5 | ????20 | ????729 | ????312 | ????32 | ????52 | |
????900 | ????149 | ????88 | ????112 | ????92 | ||
????1200 | ????35 | ????25 | ????120 | ????95 | ||
????6 | ????20 | ????744 | ????330 | ????26 | ????45 | |
????900 | ????145 | ????100 | ????110 | ????89 | ||
????1200 | ????32 | ????24 | ????100 | ????85 | ||
????7 | ????20 | ????702 | ????310 | ????29 | ????44 | |
????900 | ????125 | ????89 | ????20 | ????99 | ||
????1200 | ????29 | ????21 | ????121 | ????94 | ||
????8 | ????20 | ????760 | ????340 | ????28 | ????39 | |
????900 | ????150 | ????110 | ????89 | ????79 | ||
????1200 | ????36 | ????29 | ????89 | ????79 | ||
????9 | ????20 | ????744 | ????325 | ????31 | ????29 | |
????900 | ????148 | ????108 | ????87 | ????75 | ||
????1200 | ????32 | ????24 | ????84 | ????72 | ||
Comparative alloy | ??ЗП747 | ????20 | ????600 | ????250 | ||
????900 | ????70 | ????60 | ????35 | ????35 | ||
????1200 | ????20 | ????90 | ????75 | |||
??3YC52 | ????20 | ????650 | ????250 | ????35 | ????55 | |
????900 | ????100 | ????60 | ????110 | ????90 | ||
????1200 | ????25 | ????15 | ????120 | ????92 |
Test temperature, ℃ * 100 hours (h) | |||
????1100℃ | ????1300℃ | ||
Embodiment | ????1 | ????0.8 | ????2.8 |
????2 | ????1.5 | ????3.5 | |
????3 | ????1.7 | ????3.8 | |
????4 | ????1.47 | ????3.6 | |
????5 | ????1.8 | ????3.7 | |
????6 | ????1.9 | ????3.8 | |
????7 | ????2.0 | ????4.0 | |
????8 | ????2.0 | ????3.9 | |
????9 | ????1.95 | ????3.78 | |
Comparative alloy | ????Alloy214 | ????2.5 | ????5.2 |
????ЗП747 | ????2.1 | ????4.0 | |
????3YC52 | ????0.96 | ????3.1 |
Claims (1)
1. high-temperature high-strength antioxidant anticorrosive austenite alloy, it is characterized in that, this alloy is made up of main addition element and additional alloying element, and described main added elements is that Ni, Fe, Cr, Al and one or more strengthening elements add simultaneously, and the weight percent of each element is:
Ni 34~46, and Cr 15~23, and Al 2.5~7.5, and strengthening element is Co, Mo, W and Nb, and weight percentage is: Co 0~4, and W 0~2, and Mo 0~2, and Nb 0~2, and the total amount of strengthening element is 0.2~5%;
The weight percent of described additional alloying element is:
C 0~0.3, and Si 0~2.5, and Ti 0~2.5, and Y 0~0.5, and B 0~0.2, and RE 0~0.6; All the other are Fe.
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