Self-propagating high-temperature synthesis of refractory powder materials based on zirconium diboride obtained from boron-containing mineral raw materials of the Republic of Kazakhstan
Abstract
The goal of the present work is the synthesis of the refractory zirconium diboride powder in the combustion mode. One of the most effective methods of synthesis of the refractory zirconium diboride powder is the self-propagating high-temperature synthesis method (SHS) with a preliminary mechanical activation of the initial components. Initial components of the SH-synthesis are borate ore, zircon, aluminum powder and magnesium. After the SH-synthesis obtained products were processed by 37.5% HCl and were washed with distilled water. Final composition and microstructure of SHS products were investigated with X-ray phase analysis and SEM. Boron-containing SHS-powders can be used as bio-protection in nuclear engineering, production of abrasive powders, ceramic, composite materials and coatings.
References
2 Serebrykova TI, Neronov VA, Peshev PD, Trefilov VI (1991) High-temperature borides [Vysokotemperaturnyye boridy]. Metallurgy, Moscow, Russia. (In Russian)
3 Kosolapova TY (1986) Properties, preparation and application of refractory compounds [Svoystva polucheniye i primeneniye tugoplavkikh soyedineniy]. Metallurgy, Moscow, Russia. (In Russian)
4 Merzhanov AG, Mukasyan AS (2007) Solid flame combustion [Tverdoplamennoye goreniye]. TORUS PRESS, Moscow, Russia. (In Russian)
5 Levashov EA, Rogachev AS, Kurbatkina VV, Maxim YuM, Yukhvid II (2011) Promising materials and technologies of self-propagating high-temperature synthesis [Perspektivnyye materialy i tekhnologii samorasprostranyayushchegosya vysokotemperaturnogo sinteza]. MISIS, Moscow, Russia. (In Russian)
6 Amosov AP, Borovinskaya IP, Merzhanov AG (2007) Powder technology of SHS-materials [Poroshkovaya tekhnologiya SVS materialov]. Mashinostroenie-1, Moscow, Russia. (In Russian)
7 Merzhanov AG, Borovinskaya IP (2008) International Journal of Self-Propagating High-Temperature Synthesis 17:242-265. Crossref
8 Tavadze GF, Shteinberg AC (2011) Production of special materials by methods of Self-Propagating High-Temperature Synthesis [Poluchenie cpetsialnykh matepialov metodami camopacppoctpanyayushchego vycokotempepatupnogo cinteza]. Tbilisi, Russia. (In Russian)
9 Ershova TB, Verkhoturov AD, Butukhanov VL, Baru LL (2011) Perspective materials [Perspektivnyye materialy] 4:86-90. (In Russian)
10 Korchagin MA, Grigorieva TF, Bohonov BB, Sharafutdinov AP, Barinova BB, Lyakhov NZ (2003) Combustion, Explosion and Shock Waves 39:43-50. Crossref
11 Sychev AE, Merzhanov AG (2004) Russ Chem Rev 73:147-159. Crossref
12 He J., Wang W, Fu Zh and Sun H (2005) J Wuhan Univ Technol 20:90-93. Crossref
13 Tretiakov YD, Gudilin EA (2009) Russ Chem Rev 78:801-820. Crossref
14 Andrievsky RA (2015) (2004) Russ Chem Rev 84:540-554. Crossref
15 Diyarov MD, Kalicheva DA, Meshcheryakov SV (1981) Inder’s natural wealth and use [Prirodnyye bogatstva Indera i ikh ispolzovaniye]. Science, Almaty, Kazakhstan. (In Russian)
16 Abdulkarimova RG, Kamunur K, Baiseitov DA, Fomenko SM, Mansurov ZA (2014) The production of composition materials using boron containing mineral raw material. Abstracts of 18th International Symposium on Boron, Borides and Related Materials (ISBB2014). Honolulu, Hawaii, USA. P.126.
17 Raimkhanova DS, Fomenko SM, Abdulkarimova RG, Mansurov ZA (2013) Adv Mat Res 746:62-67. Crossref
18 Mansurov ZA, Fomenko SM, Alipbaev AN, Abdulkarimova RG, Zarko VE (2016) Combustion, Explosion, and Shock Waves [Fizika goreniya i vzryva] 52:1-10. (In Russian). Crossref
19 Aytkalieva AA, Seydualieva A Zh, Abdulkarimova RG (2016) Chemical Journal of Kazakhstan [Khimicheskiy zhurnal Kazakhstana] 2:10-15. (In Russian)
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License (CC BY-NC-ND 4.0) that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.