High-resistive nickel-based alloys for thermo-stable microwires manufactured by high-speed melt quenching

The paper presents results of a development study of optimal alloy composition based on Ni–Cr–Si–B system for the casting of microwires in glass insulation by high-speed quenching. High-resistant microwires manufactured for the developed alloy have low temperature coefficient of resistance (less than 5 10^–6K^–1) and high linear resistance (more than 1000 kOhm/m) in a wide range of positive and negative temperatures (from –196 to 250°C).

1. Perspektivnye napravleniya razvitiya nauki v Peterburge [Promising directions of the development of science in St Petersburg], Alferov Zh. et al. (Eds), St Petersburg: Permyakov, 2015, pp. 137–163.

2. Masaylo, D.V., Smelov, A.I., Peskov, T.V., Farmakovsky, B.V., Razrabotka tenzo- i termorezistivnykh splavov dlya litya mikroprovodov [Development of strain and thermoresistant alloys for casting microwires], Voprosy Materialovedeniya, 2014, No 3(79), pp. 73–78.

3. Badinter, E.Ya. et al.,Litoy mikroprovod i ego svoystva [The cast microwire and its properties], Kishinev: Shtiintsa, 1973.

4. Gorynin, I.V., Farmakovsky, B.V., Dlinnomernye litye mikroprovoda v steklyannoy izolyatsii s zhiloy iz intermetallicheskikh soyedineniy [Long-length cast microwires in glass insulation with a vein of intermetallic compounds], Voprosy Materialovedeniya, 2015, No 4(84), pp. 58–61.

5. Litoy mikroprovod i ego primenenie v nauke i tekhnike [Molded microwire and its application in science and technology], Gitsu, D.V.(Ed.), Kishinev: Shtiintsa, 1988.

6. Farmakovsky, B.V., Struktura i svoystva mikroprovodov iz dvoynykh splavov [Structure and properties of microwires from binary alloys], Metallovedenie i termicheskaya obrabotka metallov, 1977, No 3, pp. 33–38.

7. Farmakovsky, B.V., et al., Author’s certificate No 480773 USSR, MKI С22С19/00: Nickel based alloy, Publ. 15.08.75. Bull. No 30.

8. Farmakovsky, B.V., Somkova, E.A., Yurkov, M.A., Tochenyuk, D.A., Bystrov, R.Yu., Semenov, A.S., Patent RU (11) 2 351 672(13) C2: Amorphous resistive alloy on basis of nickel, Publ. 10.04.2009, Bull. 10.

9. Farmakovsky, B.V., Vasilyev, A.F., Korkina, M.A., Kuzmin, K.A., Tarakanova, T.A., Zemlyanitsyn, E.Yu., Patent RU(11) 2 424 349(13) C2: Amorphous alloy on base of nickel for mucro-wires casting, Publ. 20.07.2011, Bull. 20.

10. Glezer A.M., Permyakova I.E., Nanokristally, zakalennyye iz rasplava [Nanocrystals hardened from the melt], Moscow: Fizmatlit, 2012.

11. Zhabrev V.A., Kalinnikov V.T., Margolin V.I., Nikolaev A.I., Tupik V.A., Fiziko-khimicheskie protsessy sinteza nanorazmernykh obyektov [Physicochemical processes of synthesis of nanoscale objects], St Petersburg: Elmor, 2012.

12. Bolbochan, V.F., et al., Sposob opredeleniya malykh znacheniy soprotivleniya [The method for determining low values of resistance], Theses of the Republican Scientific and Technical Conference “Pribory soprotivleniya i rezistivnaya elementnaya baza elektroizmeritelnykh priborov” [Devices of resistance and resistive element base of electrical measuring instruments], Kishinev, 1982.

13. Masaylo, D.V., Kuznetsov, P.A., Farmakovsky, B.V., Vysokoprochnye litye mikroprovoda dlya armirovaniya konstruktsionnykh kompozitov [High-strength cast microwires for reinforcing structural composites], Metalloobrabotka, 2012, No 4, pp. 23–27.