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30-11-2022

Structure and Properties of Materials Produced by SPS Sintering of Nickel Aluminide Powders PN85U15 and PN75U23V

Authors: L. I. Shevtsova, M. A. Esikov, V. S. Lozhkin, A. Yu. Larichkin, D. S. Terentyev, A. Yu. Ognev, V. O. Drozdov, D. A. Nemolochnov

Published in: Metallurgist | Issue 7-8/2022

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Abstract

This article presents the structure and evaluation of strength properties at room temperature (r.t.) and at 900°C of materials based on nickel aluminide obtained via electrospark sintering at 1100°C of industrial powders of two grades, PN85U15 and PN75U23V, separately and mixed preliminarily with each other in the ratio of 7:3. When powders of two types are mixed, regions with a typical banded pattern, resulting from the martensitic transformation and L 1₀ phase formation, predominate in the structure. X-ray phase analysis results of the material under study revealed the intermetallic phases Ni₃Al and NiAl. This material has enhanced strength characteristics at r.t. (σ_u = 385 MPa and σ_izg = 925 MPa) with a characteristic transcrystalline fracture. At 900°C, its tensile strength is 120 MPa.

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N. A. Nochovnaya, O. A. Bazyleva, D. E. Kablov, and P. V. Panin, Intermetallic Alloys Based on Titanium and Nickel [in Russian], Izd-vo VIAM, Moscow (2018).

E. N. Kablov, O. G. Ospennikova, and O. A. Bazyleva, “Materials for highly heat-loaded parts of gas turbine engines,” Vestn. MGTU im. N.E. Baumana. “Mashinostroyeniye. Metallurgiya,” No. SP2, 13–19 (2011).

L. Liu, W. Xiao-Zhi, R. Wang et al., “Stacking fault energy, yield stress anomaly, and twinnability of Ni₃Al: a first principles study,” Chin. Phys. B., 24, No. 7, Art. 077102 (2015); 10.1088/1674-1056/24/7/077102.

P. Jozwik, W. Polkowski, and Z. Bojar, “Applications of Ni₃Al based intermetallic alloys – current stage and potential perceptivities,” Materials, 8, 2537–2568 (2015); 10.3390/ma8052537.

I. M. Makena, M. B. Shongwe, M. M. Ramakokovhu, and M. L. Lethabane, “A review on sintered nickel based alloys: WCE-2017,” in: Proc. of the World Congress on Eng. (2017), pp. 922–927.

G. G. Andreev, O. E. Permyakov, and T. I. Guzeeva, “Development of manufacturing technology for self-propagating high-temperature synthesis filters from nickel and aluminum intermetallic compounds,” Vestn. Nauki Sibiri. Ser. 3. Khimiya, No. 1(1), 84–90 (2011).

N. Frage, S. Kalabukhov, A. Wagner et al., “High temperature dynamic response of SPS-processed Ni₃Al,” Intermetallics, 102, 26–33 (2018); 10.1016/j.intermet.2018.08.010.

L. Shevtsova, V. Mali, A. Bataev et al., “Microstructure and mechanical properties of materials obtained by spark plasma sintering of Ni₃Al –Ni powder mixtures,” Mater. Sci. Eng. A, 773, Art. 138882 (2020); 10.1016/j.msea.2019.138882.

V. N. Chuvildeev, D. V. Panov, and M. S. Boldin, “Structure and properties of advanced materials obtained by Spark plasma sintering,” Acta Astronat., 109, 172–176 (2015); 10.1016/j.actaastro.2014.11.008.

10.

D. V. Dudina and V. G. Burov, Modern Methods of Powder Sintering. Aspects of Structure Formation of Sintered Materials [in Russian], Monograph, NGTU, Novosibirsk (2020).

11.

L. I. Shevtsova, M. A. Korchagin, M. A. Esikov et al., “Structure and properties of the Ni₃Al intermetallic compound formed as a result of SPS sintering of powder mixtures prepared with various methods,” Metallurg, No. 11, 56–61 (2021); 10.52351/00260827_2021_11_56.

12.

S. V. Pakhomov, T. V. Ryabinkina, and O. N. Starostina, “Analysis of the composition of powders for obtaining materials with antifriction properties,” in: Nauka Molodykh, Collection of Articles Adapted from XII Russian National Research and Training Conference (Arzamas, November, 26-27), Issue 12 (2019), pp. 233–237.

13.

S. V. Kositsyn, “Phase and structural transformations in alloys based on nickel monoaluminide,” Uspekhi Fiz. Metal., 9, 195–258 (2008).CrossRef

14.

Ph. D. Boullay, J. M. Schryvers, “Ball nano-structures at martensite macrotwin interfaces in Ni₆₅Al₃₅,” Acta Mater., 51, 1421–1436 (2003); https://doi.org/10.1016/S1359-6454(02)00536-0.CrossRef

Title: Structure and Properties of Materials Produced by SPS Sintering of Nickel Aluminide Powders PN85U15 and PN75U23V
Authors: L. I. Shevtsova
M. A. Esikov
V. S. Lozhkin
A. Yu. Larichkin
D. S. Terentyev
A. Yu. Ognev
V. O. Drozdov
D. A. Nemolochnov
Publication date: 30-11-2022
Publisher: Springer US
Published in: Metallurgist / Issue 7-8/2022
Print ISSN: 0026-0894
Electronic ISSN: 1573-8892
DOI: https://doi.org/10.1007/s11015-022-01406-y

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