ArticleName |
Rapidly quenched filler metal STEMET for brazing of materials of modern technology |
Abstract |
Modern industrial technologies can not be realized without materials, providing creation of brazed joints with high performance characteristics (such as corrosion and radiation resistance, and mechanical strength), ecological purity of the process, and methods for their disposal. This paper presents the main results of development and production of rapidly quenched belt-type filler metals in amorphous and nanocrystalline states, based on Al, Cu, Ni, Fe, Ti and Zr (STEMET) and designed for brazing of wide range of materials: from different alloys and refractory metals to ceramics without metalization surface. Composition of STEMET is divided into groups, according to the connecting materials of the parts with their melting temperature ranges, and recommended brazing temperatures and conditions. There is demonstrated the experience of brazing of products in fields of atomic technology (brazing of spacer grids, adapters and various elements of active zones), thermonuclear technology (brazing of elements of the first wall and divertor ITER), rocket and space technology (brazing of cases for electronic devices satellites, rocket engine nozzles, elements of combustion chambers of plasma thrusters), automotive technology (brazing of automotive catalysts, ignition locks, heat exchangers and other equipment), aircraft building technology (brazing of blades and other components of gas turbine engines, heat exchangers). There are presented the results of the tests of compounds of different materials (bronze CuCrZr / tungsten, bronze CuCrZr / beryllium, titanium alloy VT1-0 (ВТ1-0) / VT1-0, zirconium alloy E110 (Э110) / E110, boron nitride ceramic / VT1-0 and aluminum alloy AV (АВ) / AV), obtained using rapidly quenched ribbon-type and heat-treated powder solders STEMET. |
References |
1. Rabinkin A. New Applications for Rapidly Solidified Brazing Foils. Welding Journal. 1989. Vol. 10. pp. 39–46. 2. Onzawa T., Suzumura A., Ko M. W. Brazing of titanium using low-meltingpoint Ti-based filler metals. Welding Journal. 1990. Vol. 12. pp. 462–467. 3. Rabinkin A., Liebermann H., Pounds S., Taylor J., Reidinger F., Siu-Ching L. Amorphous Ti – Zr-Base Metglas Brazing Filler Metal. Scripta Metallugica et Materialia. 1999. Vol. 25. pp. 399–404. 4. Kalin B. A., Sevryukov O. N., Fedotov V. T., Plyushchev A. N., Yaykin A. P. Novye amorfnye pripoi dlya payki titana i ego splavov (New amorphous solders for brazing of titanium and its alloys). Svarochnoe proizvodstvo = Welding engineering. 2001. No. 3. pp. 37–39. 5. Kalin B. A., Plyushchev A. N., Fedotov V. T., Sevryukov O. N., Goltsev V. Yu. Vliyanie strukturnogo sostoyaniya pripoya na fiziko-mekhanicheskie svoystva payanykh soedineniy (Influence of structural state of solder on physicalmechanical properties of brazed joints). Svarochnoe proizvodstvo = Welding engineering. 2001. No. 8. pp. 38–41. 6. Kalin B. A., Fedotov V. T., Grigorev A. E., Plyushchev A. N., Sevryukov O. N., Skuratov L. A. Sposob izgotovleniya kompozitsionnykh materialov (Method of manufacturing of composite materials). Patent RF, No. 2124418. Applied: July 08, 1996. Published: January 10, 1999. 7. Litunovsky N., Alekseenko E., Kuznetsov V., Lyanzberg D., Makhankov A., Rulev R. Repair of manufacturing defects in the armor of plasma facing units of the ITER Divertor Dome. Fusion Engineering and Design. 2013. Vol. 88, Iss. 9/10. pp. 1739–1743. 8. Litunovsky N., Alekseenko E., Makhankov A., Mazul I. Development of the armoring technique for ITER Divertor Dome. Fusion Engineering and Design. 2011. Vol. 86, Iss. 9/11. pp. 1749–1752. 9. Yakushin V., Polsky V., Kalin B., Dzhumaev P., Polyansky A., Sevryukov O., Suchkov A., Fedotov V. Erosion of tungsten and its brazed joints with bronze irradiated by pulsed deuterium plasma flows. Journal of Nuclear Materials. 2013. Vol. 442, Iss. 1/3. pp. S237–S241. 10. Kalin B. A., Suchkov A. N., Fedotov V. T., Sevryukov O. N., Ivannikov A. A., Polyansky A. A., Mazul I. V., Makhankov A. N., Gervash A. A. Application of rapidly quenched ribbon-type filler metals for brazing of the high heat flux elements of ITER. Fusion Science and Technology. 2012. Vol. 61. pp. 147–153. 11. Maksimova S. V. Amorfnye pripoi dlya payki nerzhaveyushchey stali i titana i struktura payanykh soedineniy (Amorphous solders for brazing of stainless steel and titanium, and structure of brazed joints). Adgeziya rasplavov i payka materialov = Adhesion of melts and materials brazing. 2007. Iss. 40. pp. 70–81. 12. Ivannikov A. A., Fedotov V. T., Sevryukov O. N., Kalin B. A., Suchkov A. N., Logvinchev I. S., Fedotov I. V. Payka reaktornykh ferritno-martensitnykh staley amorfnym bystrozakalennym lentochnym pripoem na osnove nikelya (Brazing of reactor ferrite-martensite steels by amorphous nickel-based rapid-quenched band solder). Svarochnoe proizvodstvo = Welding engineering. 2012. No. 7. pp. 40–45 13. Rabinkin A., Wenski E., Ribaudo A. Brazing stainless steel using a new MBF-series of Ni – Cr – B – Si amorphous brazing foils. Welding Journal. 1998. Vol. 2. pp. 66—75. 14. Kalin B. A., Mamedova T. T., Fedotov V. T., Sevryukov O. N., Isaenkova M. G., Perlovich Yu. A., Timoshin S. N., Sinelnikov L. P., Kuznetsov V. R. Payka splavov tsirkoniya amorfnym bystrozakalennykh lentochnym pripoem (Brazing of zirconium alloys by amorphous rapidly-quenched belt solder). Svarochnoe proizvodstvo = Welding engineering. 2007. No. 10. pp. 10–14. 15. Fedotov I. V., Suchkov A. N., Fedotov V. T., Sevryukov O. N., Kalin B. A., Ivannikov A. A. Payka geksagonalnoy bornitridnoy keramiki s titanovym splavom VT1-0 bystrozakalennym pripoem na osnove titana (Brazing of hexagonal boron-nitride ceramics with titanium alloy VT1-0 (ВТ1-0) by rapidly-quenched titanium-based solder). Svarochnoe proizvodstvo = Welding engineering. 2014. No. 3. pp. 20–25. 16. Savchenko E. G., Stuchebnikov V. M., Ustinov A. A. Upravlenie kharakteristikami preobrazovateley davleniya na osnove struktur “kremniy na sapfire” (Controlling of pressure transformer characteristics on the basis of structures “silicon on sapphire”). Materiay IX Midzynarodowej naukowi-praktycznej konferencji “Perspektywiczne opracowania s nauk i technikami — 2013”. Vol. 40. Techniczne nauki. Przemyl : Nauka i studia, 2013. S. 25–29. 17. Storchay E. I. et al. Besflyusovaya payka alyuminievykh splavov pripoyami sistemy Al – Si – Ge (Fluxless brazing of aluminium alloys by Al – Si – Ge system solders). Materialy seminara “Payka – 2007”. Voprosy vysokotemperaturnoy, nizkotemperaturnoy payki i podgotovki spetsia listov dlya payalnogo proizvodstva. Chast II (Materials of the seminar “Brazing — 2007”. Problems of high-temperature, low-temperature brazing and training of brazing industry specialists. Part II). Moscow, 2007. pp. 87–90. |