Composite Material for Hardening of Tillage Machines Working Bodies Containing Titanium and Chromium Borides Synthesized Using SHS-Process

S. A. Luzan, A. I. Sidashenko, A. S. Luzan

Kharkiv Petro Vasylenko National Technical University of Agriculture, 44 Alchevskykh Str., UA-61002 Kharkiv, Ukraine

Received: 21.03.2019; final version - 27.02.2020. Download: PDF

The article presents results of the study of the developed composite material based on the powder of Ni–Cr–B–Si system modified with the composite material obtained using the process of self-propagating high-temperature synthesis (SHS) and contained titanium and chromium borides. The microstructure of composite material weld overlay coatings is a matrix material—PG-10N-01 alloy, where solid inclusions such as titanium diboride and chromium boride are uniformly distributed. As found, the composite material has high abrasive wear resistance and can be recommended for hardening of tillage machines working bodies.

Key words: composite material, mechanical activation, SHS-process, overlay welding (surfacing), wear resistance.

URL: http://mfint.imp.kiev.ua/en/abstract/v42/i04/0541.html

DOI: https://doi.org/10.15407/mfint.42.04.0541

PACS: 62.20.Qp, 68.55.J-, 68.55.Nq, 81.05.Bx, 81.20.-n, 81.40.Pq, 82.33.Vx

Citation: S. A. Luzan, A. I. Sidashenko, and A. S. Luzan, Composite Material for Hardening of Tillage Machines Working Bodies Containing Titanium and Chromium Borides Synthesized Using SHS-Process, Metallofiz. Noveishie Tekhnol., 42, No. 4: 541—552 (2020)


REFERENCES
  1. Yu. N. Saraev, V. P. Bezborodov, A. A. Shtertser, V. Yu. Ulianitskyi, A. M. Orishich, A. F. Ilyushchenko, and M. K. Skakov, Svarochnoe Proizvodstvo, No. 7: (2011) (in Russian).
  2. A. M. Stolin, P. M. Bazhin, M. V. Miheev, O. A. Averichev, A. S. Sahidollaev, and K. T. Kylyshbaev, Svarochnoe Proizvodstvo, No. 8: (2014) (in Russian).
  3. A. P. Mukhachev and O. A. Kharytonova, Metallofiz. Noveishie Tekhnol., 39, No. 10: 1395 (2017) (in Russian). Crossref
  4. K. A. Taiasov, V. P. Isupov, and B. B. Bokhonov, J. Mater. Synth. Proc., 8, No. 1: (2000). Crossref
  5. A. H. Merzhanov and A. S. Mukasyan, Tverdoplamennoe Gorenie [Solid Flame Burning] (Moscow: TORUS PRESS: 2007) (in Russian).
  6. V. I. Yakovlev, Nauchno-Tekhnologicheskie Osnovy Sozdaniya Zashchitnykh Pokrytiy iz Kompozitsionnykh Mekhanoaktivirovannykh SVS-Materialov Metodom Detonatsionno-Gazovoho Napyleniya [Scientific and Technological Bases of Protective Coatings Creation from Composite Mechanically Active SHS Materials by the Method of Detonation Gas Spraying] (Thesis of Disser. for Dr. Tech. Sci.) (Moscow: 2008) (in Russian).
  7. A. V. Sobachkin, Formirovanie Iznosostoykikh Pokryitiy dlya Detaley Selskohozyaystvennogo Mashinostroeniya pri Elektrodugovoy Naplavke Mnogokomponentnykh Mekhanoaktivirovannykh SVS-Materialov [Formation of Wear-Resistant Coatings for Agricultural Machinery Parts During Electric Arc Surfacing of Multicomponent Mechanically Activated SHS Materials] (Thesis of Disser. for Cand. Tech. Sci.) (Barnaul: 2013) (in Russian).
  8. A. S. Rogachev, and A. S. Mukasyan, Gorenie dlya Sinteza Materialov: Vvedenie v Strukturnuyu Makrokinetiku [Combustion for the Synthesis of Materials: an Introduction to Structural Macrokinetics] (Moscow: FIZMATLIT: 2013) (in Russian).