Features of the operational properties of the iron-based alloy with a shape memory effect

Шрифт:
328

Ahmed Sundus Mohammed,
Akimov O.,
Kostyk K.

https://doi.org
UDC 539.3/6:669.055(075.8)

Summary:

The aim of this work is to develop a new iron-based alloy with shape memory effect, which contains: iron, manganese, silicon, carbon, chromium, nickel, cobalt, copper, vanadium, niobium, molybdenum, sulfur, and phosphorus. The paper considers scale resistance and corrosion resistance of the alloy. The results showed that the degree of shape recovery of the proposed alloy is 95%

Keywords:

Iron-based alloy, shape memory effect, scale resistance, corrosion resistance.

REFERENCES:

  1. Huang S., Leary M., Atalla T., Probst K., Subic A. (2012). Optimisation of Ni-Ti shape memory alloy response time by transient heat transfer, vol. 35, pp. 655-663. DOI:10.1016/j.matdes.2011.09.043 [in English].
  2. Akimov O. V., Sundus M. N. (2015). Splavy s effektom pamiati formy. Istoriia poiavleniia i razvitiia, fzika protsessa ikh unikal’nykh svoistv [Alloys with shape memory effect. The history of the emergence and development and the physics of their unique properties]. Vіsnik Natsіonal›nogo tekhnіchnogo unіversitetu, no. 14 (1123), pp. 42-49 [in Russian].
  3. K. Ootsuka et al. (1990). Splavy s effektom pamiati formy [Alloys with shape memory effect]. Pod red. Kh. Funakubo. Moscow: Metallurgiia, 224 p. [in Russian].
  4. Akimov O. V., Sundus M. N. (2015). Vliianie termicheskoi obrabotki na svoistva novogo splava na osnove zheleza [The effect of heat treatment on the properties of the new iron-base alloy]. Eastern-European Journal of Enterprise Technologies, no. 11 (78). pp. 35-40. DOI:10.15587/1729-4061.2015.56370 [in Russian].
  5. Jani J. M., Leary M., Subic A., Gibson M. A. (2014). A Review of Shape Memory Alloy Research, Applications and Opportunities, no. 56, pp. 1078-1113. DOI:10.1016/j.matdes.2013.11.084 [in English].
  6. Barbarino S., Saavedra Flores E. I., Ajaj R. M., Dayyani I., Friswell M. I. (2014). A review on shape memory alloys with applications to morphing aircraft, no. 23 (063001), pp. 1-19. DOI:10.1088/0964-1726/23/6/063001 [in English].
  7. GOST 5632-2014. Legirovannye nerzhaveiushchie stali i splavy korrozionnostoikie, zharostoikie i zharoprochnye. Marki [The alloyed stainless steels and alloys corrosion resistant, heat-resistant and refractory. Brands]. Introduction: 01.01.2015, Moscow: Standartinform, 49 p. [in English].
  8. Patent of USSR, no. 1617035, MPK C22C 38/14. Splav na osnove zheleza s effektom pamiati formy [Alloy on the basis of iron with a form memory effect]. Kororin V. V., Gunko L. P.; assignee: Ukrainian Academy of Sciences Institute of Metal, no. 4646348/31-02; fled 03.02.1989; published 30.12.1990, Bull. no. 48 [in Russian].
  9. Patent of Ukraine 29209, MPK C22C 38/04. Splav na osnovi zaliza z efektom pam’iati formy. [Alloy on the base of iron with the effect of shape memory]. Yakovenko P. G., Gavryliuk V. G., Glavat’ska N. I., Ullakko K. M., no. u98010516; zaiavl. 30.01.1998; opubl. 16.10.2000, Bull. no. 5 [in Ukrainian].
  10. Akhmed S. M., Akimov O. V., Kostyk E. A. (2016). Issledovanie dispersionnogo tverdeniia splava na osnove zheleza [The study of dispersion hardening of the iron-based alloy]. Vestnik NTU KhPI, Seriia: Novye resheniia v sovremennykh tekhnologiiakh, Kharkov: NTU KhPI, no. 42 (1214), pp. 11-16. DOI:10.20998/2413-4295.2016.42.02 [in Russian].