JPH05179379A - High-temperature sealing material made of rolled ni alloy sheet - Google Patents

Abstract

PURPOSE:To improve the high-temp. characteristics of a sealing material used for the joints of an internal-combustion engine, a heat exchanger, etc. CONSTITUTION:This sealing material is made of a rolled Ni alloy sheet having a compsn. consisting of, by weight, 14-20% Cr, 4-6% Al, 1.5-8% Fe, one or more among (a)-(d) [(a) is 0.1-6% one or more among Mo, W, Nb and Ta, (b) is 0.001-0.07% B, (c) is 0.001-0.07% Y and (d) is 0.1-10% Co] and the balance Ni with inevitable impurities.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a Ni-base alloy rolled sheet high-temperature sealant having excellent high-temperature sag resistance, high-temperature strength, and high-temperature oxidation resistance.

[0002]

2. Description of the Related Art Conventionally, SUS30 has been used as a packing or a gasket for joints of various internal combustion engines and heat exchangers.
It is well known that a sealing material made of a rolled stainless steel plate composed of 1 or SUS310S is used.

[0003]

On the other hand, in recent years, high performance and high output of various internal combustion engines and heat exchangers are remarkable, and accordingly, the device itself is heated to a high temperature. The joint part, which is a structural member of the device, is also exposed to high temperature, and the heating temperature during operation may reach 500 to 850 ° C., but the conventional stainless steel rolled plate sealing material Since the high temperature sag resistance, high temperature strength, and high temperature oxidation resistance required for some types of sealing materials are not sufficient, it is barely possible to increase the temperature by increasing the number of overlapping sealing materials in proportion to the heating temperature. The current situation is that it is supported.

[0004]

Therefore, the present inventors have
From the above viewpoints, as a result of research to develop a sealing material that can satisfactorily cope with high temperature heating, the sealing material is expressed in% by weight (hereinafter,% means% by weight): Cr: 14 to 20 %, Al: 4 to 6%, Fe: 1.5 to 8%, and, if necessary, (a) one or more of Mo, W, Nb, and Ta: 0 1 to 6%, (b) B: 0.001 to 0.07%, (c) Y: 0.001 to 0.07%, (d) Co: 0.1 to 10%, and above (a) When composed of a Ni-based alloy rolled plate containing one or more of (d) to (d) and the balance consisting of Ni and unavoidable impurities, the resulting Ni-based alloy rolled plate sealing material is Since it has excellent high temperature sag resistance, high temperature strength, and high temperature oxidation resistance, the joint is heated to high temperature. Even so, we have obtained research results that show excellent sealing properties over a long period of time.

The present invention has been made based on the above research results, and the reason why the composition of the Ni-base alloy rolled sheet constituting the high-temperature sealing material is limited as described above will be explained below.

(A) Cr The Cr component has the effect of improving high temperature oxidation resistance, but if its content is less than 14%, the desired high temperature oxidation resistance cannot be ensured, while Content is 20
%, The hot rolling processability will be deteriorated, so the content was set to 14 to 20%.

(B) Al As an Al component, a stable Al ₂ O ₃ film is formed on the surface to improve high temperature oxidation resistance, and it also forms a solid solution in the base material to improve high temperature strength and Ni ₃ which precipitates finely and uniformly
Although it has an effect of forming an intermetallic compound of Al to improve the high temperature sag resistance, if the content is less than 4%, the desired effect cannot be obtained on the other hand, while the content exceeds 6%. Then, cracking is likely to occur in hot rolling, so the content was set to 4 to 6%.

(C) Fe The Fe component has an effect of improving strength at room temperature and toughness, but if its content is less than 1.5%, the desired effect cannot be obtained on the above-mentioned function, while its content is When it exceeds 8%,
Since the high temperature oxidation resistance and the high temperature strength are lowered, the content thereof is set to 1.5 to 8%.

(D) Mo, W, Nb, and Ta These components have the function of forming a solid solution in the matrix to improve the high-temperature strength. Therefore, they are contained if necessary, but their content is 0. If it is less than 1%, the desired effect on the above action cannot be obtained. On the other hand, if its content exceeds 6%, the rolling workability is deteriorated.
It was set at 6%.

(E) BB The B component has the effect of improving the high temperature fatigue resistance, so it is contained if necessary, but its content is 0.001.
If it is less than%, the desired high temperature sag resistance improving effect cannot be obtained,
On the other hand, if the content exceeds 0.07%, the toughness decreases, so the content is 0.001 to 0.0
It was set at 7%.

(F) Y Y component has the function of improving high temperature oxidation resistance, so it is contained if necessary, but its content is 0.00
If it is less than 1%, the desired effect of improving high temperature oxidation resistance cannot be obtained,
On the other hand, if the content exceeds 0.07%, the grain boundary segregates, and as a result, the creep strength rapidly decreases. Therefore, the content is 0.001 to 0.07%.
I decided.

(G) Co Since the Co component has a function of improving high temperature strength,
Although it is contained as required, if the content is less than 0.1%, the desired high temperature strength improving effect cannot be obtained, whereas if it exceeds 10%, it is a brittle intermetallic compound of Co ₃ Al.
Is likely to occur, its content is 0.1-10%
I decided.

(B) Inevitable Impurities Major inevitable impurities are C, Si, Mn, and Ti components. The contents of these components are C: 0.25% or less and Si: 1, respectively. % Or less, Mn: 1
% Or less and Ti: 0.5% or less, no adverse effect is exerted on the sealing characteristics, so the content within the above range is allowed.

[0014]

EXAMPLES Next, the high temperature sealing material of the present invention will be specifically described by way of examples. Using a normal vacuum melting furnace, Ni-base alloys and stainless steel melts having the compositions shown in Tables 1 to 5, respectively, were prepared and cast to form electrodes each having a diameter of 65 mm and a length of 800 mm, After each of these electrodes was refined by an electroslag method into an ingot, hot forging was started at a predetermined temperature within a range of 1180 to 1250 ° C to obtain a thickness of 30 mm and a width of 150 mm.
× Length: 600mm, also 1180-125
Hot rolling was performed at a predetermined hot rolling start temperature within the range of 0 ° C. to obtain a hot rolled sheet having a thickness of 4 mm and a width of 150 mm, and a plane dimension of 4 mm × 30 mm was obtained from this hot rolled sheet. A specimen for high temperature oxidation resistance test is cut out, and then the hot rolled sheet is rolled, and the rolling ratio is:
50% cold rolling and air (atmosphere of thickness: 1 mm or more) or hydrogen flow (atmosphere of thickness: 0.5 mm or less) to a predetermined temperature within the range of 1050 to 1180 ℃ The intermediate annealing under the conditions of holding was alternately repeated, and the cold-rolled sheet having a thickness of 0.25 mm in the final cold rolling was subjected to the final annealing under the same conditions as the above-mentioned intermediate annealing, and subsequently hydrogen. The sealing material made of the Ni-based alloy rolled sheet of the present invention by aging treatment (finely depositing intermetallic compound of Ni ₃ Al) under the condition of holding at a predetermined temperature within a range of 700 to 900 ° C. for 30 minutes in an air flow. (Hereinafter, referred to as the sealing material of the present invention) 1 to 50
Comparative Ni-based alloy rolled plate sealing materials (hereinafter referred to as comparative sealing materials) 1 to 4 and conventional stainless steel rolled plate sealing materials (hereinafter referred to as conventional sealing materials) 1 and 2 were manufactured.

The comparative sealing materials 1 to 4 are those in which the content of any one of the basic components constituting the Ni-based alloy rolled plate (marked with * in Table 5) is out of the range of the present invention. Is.

[0016]

[Table 1]

[0017]

[Table 2]

[0018]

[Table 3]

[0019]

[Table 4]

[0020]

[Table 5]

Then, with respect to the various sealing materials obtained as a result, the high temperature tensile strength at 850 ° C. was measured for the purpose of evaluating the high temperature strength, and further the high temperature sag resistance and the high temperature oxidation resistance were evaluated. For the purpose, a high temperature sag test and a high temperature oxidation test were performed.

As shown in the plan view of FIG. 1, the high temperature sag test has dimensions of 55 mm × 55 mm × 0.25 mm, a central hole having a diameter of 30 mm, and a square having a diameter of:
A test piece S having a 9 mm bolt through hole and further having a ring-shaped convex portion having an outer diameter of 44 mm, an inner diameter of 40 mm and a height of 0.2 mm is formed concentrically with the center hole. As shown in the longitudinal sectional view in FIG. 2, two stainless steels (SUS304) having the same dimensions as the sample S except that the ring-shaped convex portion is not formed and the thickness is 10 mm are prepared. )
Scissors between plate-making materials P, P, square with bolt B 1.9 kg
Tightened with a torque of m until tightly attached, temperature: 8
After heating at 50 ° C. under the condition of holding for 48 hours, after heating, a pressurized air blowing nozzle is attached to one side of the center hole of the assembly, and both upper and lower sides except the side surface are sealed, and the assembly is submerged in water. Pressure air was blown from the nozzle, air leakage was generated from the side surface of the assembly, and the pressure was measured when the amount of air leakage per minute exceeded 25 cc.

In the high temperature oxidation test, a test piece having a size of 30 mm × 30 mm × 4 mm cut out from the above hot rolled sheet was used, and A fuel oil containing sulfur: 0.1% by weight was used. = 5: 1, burning speed: in an atmosphere burned under the conditions of Mach 0.3, after keeping the temperature at 982 ° C for 0.5 hours,
1 cycle of forced air cooling below 260 ° C
The test was repeated 00 times and the loss on oxidation after the test was measured. The results of these measurements are shown in Tables 6-8. In addition, Tables 6 to 8 show that C and S among the unavoidable impurities.
The contents of i, Mn, and Ti are also shown.

[0024]

[Table 6]

[0025]

[Table 7]

[0026]

[Table 8]

[0027]

From the results shown in Tables 1 to 8, the sealing materials 1 to 50 of the present invention are all high temperature strength, high temperature sag resistance and high temperature oxidation resistance as compared with the conventional sealing materials 1 and 2. It is clear that any of the above characteristics are excellent, and as seen in Comparative Sealing Materials 1 to 4, when the composition of the Ni-based alloy rolled plate is out of the range of the present invention, It is clear that at least one of the properties will be inferior. As described above, since the sealing material of the present invention is particularly excellent in high temperature strength, high temperature sag resistance, and high temperature oxidation resistance, it is suitable for high performance and high output of various internal combustion engines and heat exchangers. It is possible to sufficiently satisfy the requirement, and to exhibit excellent performance in practical use over a long period of time.

[Brief description of drawings]

FIG. 1 is a plan view of a test piece used in a high temperature sag test.

FIG. 2 is a vertical cross-sectional view showing a high temperature sag test assembly.

[Explanation of symbols]

 S Sample P Stainless steel plate B Bolt

Claims (16)

[Claims] 1. A Ni-based alloy containing Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8% by weight, and the balance of Ni and unavoidable impurities. Ni characterized by being composed of a rolled plate
High temperature sealing material made from base alloy rolled plate. 2. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and further, one of Mo, W, Nb, and Ta. Or a mixture of two or more kinds: 0.1 to 6%, and the balance being a Ni-based alloy rolled plate having a composition of Ni and inevitable impurities. .. 3. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and B: 0.001 to 0.07%. Ni containing an Ni-based alloy rolled sheet having a composition containing Ni and unavoidable impurities in the balance
High temperature sealing material made from base alloy rolled plate. 4. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and Y: 0.001 to 0.07%. Ni containing an Ni-based alloy rolled sheet having a composition containing Ni and unavoidable impurities in the balance
High temperature sealing material made from base alloy rolled plate. 5. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and further Co: 0.1 to 10%. And Ni consisting of a Ni-base alloy rolled plate having a composition in which the balance is Ni and inevitable impurities.
High temperature sealing material made from base alloy rolled plate. 6. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and further, one of Mo, W, Nb, and Ta. Or a mixture of two or more kinds: 0.1 to 6%, B: 0.001 to 0.07%, and the balance being a Ni-based alloy rolled plate having a composition of Ni and inevitable impurities. Characteristic Ni
High temperature sealing material made from base alloy rolled plate. 7. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and 1 of Mo, W, Nb, and Ta. Or a combination of two or more: 0.1 to 6%, Y: 0.001 to 0.07%, and the balance being a Ni-based alloy rolled plate having a composition of Ni and inevitable impurities. Characteristic Ni
High temperature sealing material made from base alloy rolled plate. 8. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and further, one of Mo, W, Nb, and Ta. Or a mixture of two or more kinds: 0.1 to 6%, Co: 0.1 to 10%, and the balance being a Ni-based alloy rolled plate having a composition of Ni and inevitable impurities. Ni
High temperature sealing material made from base alloy rolled plate. 9. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and further B: 0.001 to 0.07%, Y: 0.001 to 0.07%, and the balance being composed of a Ni-based alloy rolled plate having a composition of Ni and inevitable impurities.
High temperature sealing material made from base alloy rolled plate. 10. Cr: 14 to 20%, Al: 4 to 6
%, Fe: 1.5 to 8%, B: 0.001 to 0.07%, Co: 0.1 to 10%, and the balance Ni and inevitable impurities. Ni comprising a Ni-based alloy rolling plate having a composition
High temperature sealing material made from base alloy rolled plate. 11. Cr: 14 to 20%, Al: 4 to 6
%, Fe: 1.5 to 8%, Y: 0.001 to 0.07%, Co: 0.1 to 10%, and the balance Ni and unavoidable impurities. Ni comprising a Ni-based alloy rolling plate having a composition
High temperature sealing material made from base alloy rolled plate. 12. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and further, one of Mo, W, Nb, and Ta. Or 2 or more kinds: 0.1 to 6%, B: 0.001 to 0.07%, Y: 0.001 to 0.07%, and the balance of Ni and unavoidable impurities. Ni comprising a Ni-base alloy rolled plate
High temperature sealing material made from base alloy rolled plate. 13. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and further, one of Mo, W, Nb, and Ta. Or 2 or more kinds: 0.1 to 6%, B: 0.001 to 0.07%, Co: 0.1 to 10%, and the balance is a Ni group having a composition of Ni and inevitable impurities. Ni characterized by being composed of an alloy rolling plate
High temperature sealing material made from base alloy rolled plate. 14. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and further, one of Mo, W, Nb, and Ta. Or 2 or more kinds: 0.1 to 6%, Y: 0.001 to 0.07%, Co: 0.1 to 10%, and the balance is a Ni group having a composition of Ni and inevitable impurities. Ni characterized by being composed of an alloy rolling plate
High temperature sealing material made from base alloy rolled plate. 15. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and B: 0.001 to 0.07%, Y. Ni: 0.001 to 0.07%, Co: 0.1 to 10%, and the balance being a Ni-based alloy rolled plate having a composition of Ni and inevitable impurities.
High temperature sealing material made from base alloy rolled plate. 16. By weight%, Cr: 14 to 20%, Al: 4 to 6%, Fe: 1.5 to 8%, and further, one of Mo, W, Nb, and Ta. Or 2 or more kinds: 0.1 to 6%, B: 0.001 to 0.07%, Y: 0.001 to 0.07%, Co: 0.1 to 10%, and the rest Ni comprising a Ni-based alloy rolled plate having a composition of Ni and inevitable impurities
High temperature sealing material made from base alloy rolled plate.