Metal Science and Metallography |
ArticleName |
The study of the effect of chromium boron (CrB2) hardening additive on the developed PG-Zh40 surfacing
powder |
DOI |
10.17580/cisisr.2018.02.11 |
ArticleAuthor |
V. G. Mironov, G. T. Shilov, Zh. B. Ilmaliyev, A. A. Bekisheva |
ArticleAuthorData |
Kazakh British Technical University, «KBTU METALLUM» LLP (Almaty, Kazakhstan):
V. G. Mironov, Cand. Eng., Head of the Project “TOO KBTU SPLAV”, G. T. Shilov, Senior Researcher, Mechanical Engineer A. A. Bekisheva, Doctoral Candidate, e-mail: ardabekovna@mail.ru
JSC «Institute of Metallurgy and Ore Beneficiation» (Almaty, Kazakhstan):
Zh. B. Ilmaliyev, Head of the Staff
I. K. Beysembetov (Satbayev University, Kazakhstan) and B. K. Kenzhaliev (Institute of Metallurgy and Ore Beneficiation) were also the participants in this work. |
Abstract |
Powders of Fe, Ni, Cr, Si, Cu, B, C and hardening additive CrB2 ligature were used as initial reagents for creating self-fluxing surfacing powder. The synthesis of the composite material was carried out by mechanochemical method using an attritor. Optimization of the composition of new composite alloys with the addition of a chromium boron ligature was carried out and the conditions for the formation of the alloy were determined. The conditions of phase formation and the structure of a new composite filler with boride hardening under mechanical alloying were also studied. The following rational composition of powder alloy was obtained : Fe = 32–40 %; C = 1.1–1.4 %; Cr = 14–15 %; Si = 2–3 %; B = 2.0–2.9 %; Ni = 30–32 %, Cu = 2–3 % with a hardness of 30–44 HRC. The analysis of structure in blankets of surfacing alloy on the basis of iron is carried out it was carried out by means of the metallographic analysis. |
keywords |
Self-fluxing alloy, gas powder surfacing, durability, mechanochemical technology, attritor, granulation |
References |
1. Fomicheva N. B., Nechayev L. M., Markova E. V. Features of silicon effect on the structure of facing materials. Chernye metally. 2017. No. 12. p. 45–49 2. Lukianov A. A., Sokolov Yu. A. Mechanical properties of the composite materials produced by sib technology. Nauchno-tekhnicheskie vedomosti Sankt-Peterburgskogo politekhnicheskogo universiteta. 2014. No. 4(207). р. 174. 3. Patent No. 27499 of the Republic of Kazakhstan. Method of production of surfacing powder alloy for gas thermal surfacing (Kenzhaliev B. K., Miro nov V. G., Shilov G. T., Suleymenov E. N.). Published in September 2012. 4. Khina B. B., Goranskiy G. G. Thermodynamic Properties of Multicomponent Amorphous Alloys in Fe–Si–B–Ni and Fe–Si–B–Ni–Co–Cr–Mo Systems. Advanced Materials & Technologies. 2016. No. 2. pp. 8–15. 5. Hocking M. Metallic and ceramic coatings. Production, high temperature properties and applications. Translation from English. Edited by Andrievsky G. A. M.: Mir. 2006. 518 p. 6. Mirkin L. I. X-ray diffraction control of engineering materials. M.: Mashinostroyenie. 1979. 134 p. 7. Gorelik S. S. X-ray diffraction and electron optical analysis. М.: Metallurgia. 1970. 338 p. 8. Lovshenko F. G., Lovshenko G. F., Lozikov I. A. Nanocrystalline Mechanically Allowed Modifying Ligatures For Production of Chromium Bronze. Lityo i metallurgiya. 2016. No. 2(83). p. 89. 9. Kulik A. Y., Borisov Y. S., Mnukhin A. S., Nikitin M. D. Gas thermal spraying of composite powders. Leningrad: Mashinostroyenie. 1985. 199 p. 10. Popov V. A., Zaytsev V. A., Prosviryakov A. S. et al. The study of mechanical alloying processes during the production of composite materials with nanoscaled strengthening particles. Nanostrukturirovannye materialy i funktsionalnye pokrytiya. 2010. No. 1. pp. 48–52. 11. Borisov Y. S., Borisova A. L. et al. Mechanical synthesis and mechanical alloying methods of gas thermal coatings production. Svarochnoe proizvodstvo. 2010. No. 12. pp. 18–21. 12. Lovshenko G. F., Lovshenko F. G., Khina T. F. The effect of mechanoactivation on the processes of phase and structure formation during self-propagating high-temperature synthesis. Novosibirsk. Parallel. 2008. 168 p. |
Full content |
The study of the effect of chromium boron (CrB2) hardening additive on the developed PG-Zh40 surfacing
powder |