Comparative analysis of technological properties and microstructure of titanium powders of different classes of alloys

The results of a study of the technological properties of titanium powders of pseudo-α and pseudo-β alloys are presented. A comparative analysis of the characteristics of powder materials obtained by centrifugal spraying has been carried out. The results of the granulometric composition of the powders were obtained, and the calculation of the spatial packing of particles was applied within the framework of the hard sphere model for various fractional compositions. To compare the microstructure and mechanical properties, test samples from pseudo-α and pseudo-β titanium alloys were obtained using the hot isostatic pressing method according to selected modes.

1. Padalko, A.G., Praktika goryachego izostaticheskogo pressovaniya neorganicheskikh materialov [The practice of hot isostatic pressing of inorganic materials], Moscow: Akademkniga, 2007.

2. Froes, F.H., Suryanarayana, C., Powder processing of titanium alloys, A. Bose, R.M. German, A. Lawley (Eds.), Rev. Particulate Materials, 1993, No 1, pp. 233–275.

3. Proceedings of the Conference on “Powder Metallurgy of Titanium Alloys,” Froes, F.H., Smugeresky, J., (Eds.), Warrendale, PA, USA, 1980.

4. Koshelev, V.Ya., Garibov, G.S., Sukhov, D.I., Osnovnye zakonomernosti protsessa polucheniya granul zharoprochnykh nikelevykh splavov metodom plazmennogo raspyleniya vrashchayushcheisya zagotovki [The main regularities of the process of obtaining granules of heat-resistant nickel alloys by plasma spraying of a rotating workpiece], Tekhnologiya legkikh splavov, 2015, No 3, pp. 97–103.

5. Vostrikov, A.V., Sukhov, D.I., Proizvodstvo granul metodom PREP dlya additivnykh tekhnologii – tekushchii status i perspektivy razvitiya [Production of pellets by PREP method for additive technologies – current status and development prospects], Trudy VIAM, 2016, No 8 (44), Art. 03.

6. Samarov, V., Khaykin, R., Nepomnyatschy, V., Koshelev, V., Khomyakov, E., Out gassing of powders before HIP: problems and solutions, HIP 2002: Proceedings of the International Conference on Hot Isostatic Pressing, Moscow, May 20–22, 2002.

7. European Powder Metallurgy Association. URL: www.epma.com (reference date 19/02/2024)

8. Ageev, S.V., Girshov, V.L., Goryachee izostaticheskoe pressovanie v poroshkovoi metallurgii [Hot isostatic pressing in powder metallurgy], Metalloobrabotka, 2015, No 4 (88), pp. 56–60.

9. Aleksandrov, A.A., Aleksandrov, A.V., Demchenkov, G.G., Kuznetsov, S.Yu., Osipov, S.A., Ispolzovanie metallurgii granul titanovykh splavov dlya polucheniya novykh materialov i izdelii s povyshennymi kharakteristikami [The use of metallurgy of titanium alloy granules to obtain new materials and products with improved characteristics], Titan, 2017, No 1, pp. 28–33.

10. Kansai, A.R., Torquato, S., Stillinger, F.H., Computer generation of dense polydisperse sphere packings, J. Chem. Phys., 2002, V. 117.

11. Borkovec, M., De Paris, W., Peikert, R., The fractal dimension of the appolonian sphere packing, Fractals, 1994, V. 2 (4).

12. Ushakov, S.S., Kudryavtsev, A.S., Karasev, E.A., Bereslavsky, A.L., Machishina, L.A., Metallurgicheskie aspekty tekhnologii proizvodstva krupnogabaritnykh slitkov titanovykh splavov [Metallurgical aspects of the production technology of large-sized titanium alloy ingots], Voprosy materialovedeniya, 2009, No 3 (59), pp. 96–106.

13. Kozlova, I.R., Chudakov, E.V., Tretyakova, N.V., Markova, Yu.M., Vasilieva, E.A., Vliyanie termicheskoi obrabotki na formirovanie struktury i uroven mekhanicheskikh svoistv vysokolegirovannogo titanovogo splava [The effect of heat treatment on the formation of the structure and the level of mechanical properties of a high-alloy titanium alloy], Voprosy materialovedeniya, 2019, No 4 (100), pp. 28–39.

14. Kablov, E.N., Evgenov, A.G., Rylnikov, V.S., Afanasiev-Khodykin, A.N., Issledovanie melkodispersnykh poroshkov pripoev dlya diffuzionnoi vakuumnoi paiki, poluchennykh metodom atomizatsii rasplava [Investigation of finely dispersed solder powders for diffusion vacuum soldering obtained by melt atomization], Vestnik MGTU im. N.E. Baumana. Ser.: Mashinostroenie, 2011, No SP2, pp. 79–87.

15. Samarov, V., Seliverstov, D., Raisson, G., Goloveshkin, V., Physical Principles of Shape and Densification Control during HIP, Proceedings of the 2011 International Conference on Hot Isostatic Pressing, Kobe, Japan, 2011.

16. Glazunov, S.G., Borzetsovskaya, K.M., Poroshkovaya metallurgiya titanovykh splavov [Powder metallurgy of titanium alloys], Moscow: Metallurgiya, 1989.