Abstract
Mechanical synthesis of the powders based on the Al-6Mg nanocrystalline matrix, multi-reinforced with fullerenes (C60) and ceramic particles (AlN), was performed. The effect of the AlN content in the charge, ranging from 10 to 50 wt. %, on the morphology of particles, and the granulometric composition of the synthesized multi-reinforced powders were studied. The structural and phase composition of the synthesized powders was analyzed. The microhardness of the multi-reinforced composite powder particles was measured using kinetic indentation. It was shown that by increasing the concentration of ceramic filler (AlN) from 10 to 50 wt. %, it becomes possible to increase the microhardness of the powder particles by about 12–20% compared with the mono-reinforced composite particles.
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References
Melentiev R, Yu N, Lubineau G (2021) Polymer metallization via cold spray additive manufacturing: a review of process control, coating qualities, and prospective applications. Addit Manuf 48:102459
Pandian AS, Srinivasan RG, Palani S, Selvam M (2023) Surface modification on AZ31B Mg alloy for improved corrosion resistance and hardness by thermal spray aluminum coating. Mater Today Proc 72:2586–2592
Wu J, Fang H, Kim HJ, Lee C (2006) High speed impact behaviors of Al alloy particle onto mild steel substrate during kinetic deposition. Mater Sci Eng: A 417(1–2):114–119
Papyrin A (2001) Cold spray technology. Adv Mater Process 159:49–51
Mangalarapu TB, Kumar S, Ramakrishna M, Gandham P, Suresh K (2022) Precipitation behavior of cold sprayed Al6061 coatings. Mater (oxf) 24:101510
Hodder KJ, Izadi H, McDonald AG, Gerlich AP (2012) Fabrication of aluminum-alumina metal matrix composites via cold gas dynamic spraying at low pressure followed by friction stir processing. Mater Sci Eng: A 556:114–121
Sansoucy E, Marcoux P, Ajdelsztajn L, Jodoin B (2008) Properties of SiC-reinforced aluminum alloy coatings produced by the cold gas dynamic spraying process. Surf Coat Technol 202(16):3988–3996
Huang C, List A, Wiehler L, Schulze M, Gärtner F, Klassen T (2022) Cold spray deposition of graded Al-SiC composites. Addit Manuf 59:103116
Zhao L, Tariq NU, Ren Y, Liu H, Han R, Cui X, Wang J, **ong T (2022) Effect of particle size on ceramic particle content in cold sprayed Al-based metal matrix composite coating. J Therm Spray Tech 31:2505–2516
Chesnokov AE, Smirnov AV, Klinkov SV, Kosarev VF (1945) Preparation of the composite powder Al–B4C by ball milling for cold spray. Phys: Conf Ser 012033(2021)
Balog M, Krizik P, Dvorak J, Bajana O, Krajcovic J, Drienovsky M (2022) Industrially fabricated in-situ Al-AlN metal matrix composites (part B): the mechanical, creep, and thermal properties. J Alloys Compd 909:164720
Aborkin AV, Alymov MI, Arkhipov VE, Khrenov DS (2018) Formation of Heterogeneous Powder Coatings with a Two-Level Micro-and Nanocomposite Structure under Gas-Dynamic Spraying Conditions. Dokl Phys 63:50–54
**e X, Yin S, Raoelison R, Chen C, Verdy C, Li W, Ji G, Ren Z, Liao H (2021) Al matrix composites fabricated by solid-state cold spray deposition: a critical review. J Mater Sci Technol 86:20–55
Jodoin B, Ajdelsztajn L, Sansoucy E, Zúñiga A, Richer P, Lavernia EJ (2006) Effect of particle size, morphology, and hardness on cold gas dynamic sprayed aluminum alloy coatings. Surf Coat Technol 201(6):3422–3429
Meyer M, Caruso F, Lupoi R (2018) Particle velocity and dispersion of high stokes number particles by PTV measurements inside a transparent supersonic cold spray nozzle. Intern J Multiph Flow 106:296–310
Koithara LL, Raoelison RN, Costil S (2020) Flow phenomenon of micron-sized particles during cold spray additive manufacturing: High-speed optic observation and characterization. Adv Powder Technol 31(3):1060–1079
Li W, Assadi H, Gaertner F, Yin S (2018) A review of advanced composite and nanostructured coatings by solid-state cold spraying process. Crit Rev Solid State Mater Sci 44(2):109–156
Aborkin AV, Alymov MI, Kireev AV, Sobol’kov AV, Arkhipov VE (2018) Structure and efficiency of gas-dynamic deposition of hybrid coatings based on a nanocrystalline aluminum matrix. Metallurgist 62(7–8):809–814
Aborkin AV, Arkhipov VE, Sachkova NV, Sychev AE, Alymov MI (2019) Effect of Al2O3 on the microhardness of AMg2/graphite nanocomposite powder gas dynamic coatings on aluminum alloys. Metal Science and Heat Treatment (61):360–365
Popov VA (2015) X‑ray micro-absorption enhancement for nonagglomerated nanodiamonds in mechanically alloyed aluminum matrix composites. Phys Status Solidi (a) 212(12):2722–2726
Funding
This study was carried out as part of the state assignment in the field of science issued by the Ministry of Science and Higher Education of the Russian Federation (topic FZUN-2024-0004, state assignment for Vladimir State University (VlSU)).
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Translated from Metallurg, No. 3, pp. 95–99, March, 2024. Russian DOI: https://doi.org/10.52351/00260827_2024_3_95
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Aborkin, A.V., Babin, D.M., Bokaryov, D.V. et al. Fabrication of multi-reinforced powders for gas-dynamic spraying by powder metallurgy. Metallurgist (2024). https://doi.org/10.1007/s11015-024-01745-y
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DOI: https://doi.org/10.1007/s11015-024-01745-y