AJP Fizika A
Institute of Physics
Ministry of Science and Education
Republic of Azerbaijan
ISSN 1028-8546
Azerbaijan Journal of Physics
Published from 1995. Registration number: 514, 20 02 1995
Ministry of Press and Information of Azerbaijan Republic
2022 01 az p.18-30 | O.A. Samedov, M.N. Mirzayev, Defect formation mechanism and thermophysical effect in the binary boron compounds under swift heavy ion, neutron, electron and gamma irradation |
ABSTRACT In the presented work, the mechanism of recombination of defects under the influence of different types of irradiations in the binary boron compounds in the temperature range T = 300-1200K and the kinetics of the heat flux function depending on the temperature were determined. The formation of an oxide layer on the surface of B4C and B6Si compounds at high temperatures and the degradation of surface morphology in boron compounds under the influence of swift heavy ion flux were studied. Keywords: fast heavy ion, neutron and electron flood, gamma radiation, defect formation, DSC. PACS: 544.223 DOI:- Received: 25.01.2022 AUTHORS & AFFILIATIONS Institute of Radiation Problems of Azerbaijan National Academy of Sciences, 9 B. Vahabzade, Baku, AZ 1143, Azerbaijan E-mail: |
REFERENCIES [1] R.A. Andrievski. Russian Chemical Reviews, 2012, v.81, pp.549-559. [2] Y. Ben-Galim, U.Wengrowicz, A.Raveh, I.Orion. Gamma scintillator system using boron carbide for neutron detection/ Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2014, v.756, pp.62-67. [3] S. Chakraborty, D. Debnath, A.R. Mallick, P.K. Das. International Journal of Applied Ceramic Technology, 2015, v.12, pp.568-576. [4] S. Chakraborty, D. Debnath, A.R. Mallick, R.K. Gupta, A. Ranjan, PK. Das, D. Ghosh. International Journal of Refractory Metals and Hard Materials, 2015, v.52, pp. 176-182. [5] L.T. Christopher et all. Journal of Physical Chemistry C, 2015, v.119, pp.13807-13813. [6] P. Chaudhari, A. Singh, A. Topkar, R. Dusane. Fabrication and characterization of silicon based thermal neutron detector with hot wire chemical vapor deposited boron carbide converter. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2015, v.779, pp.33-38. [7] H.K. Clark, J.L. Hoard. Journal of American Chemical Society, 1943, v.65, pp.2115-2119. [8] H.A.A. Abdelbagi, V.A. Skuratov, S.V. Motloung, E.G. Njoroge, M. Mlambo, T.T. Hlatshwayo, J.B. Malherbe. Effect of swift heavy ions irradiation on the migration behavior of strontium implanted into polycrystalline SiC. Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 2019, v.451, pp.113-121. [9] Mannab Tashmetov, Bekhzodjon Abdurakhimov, Matlab N. Mirzayev and To Xuan Thang. The effect of electron beam to nanocrystallites size, strain and structural parameters of the silicon carbide nanopowder, International Journal of Modern Physics B, 2019, vol. 33, № 20, 1950223. [10] M.N. Mirzayev. Radiation Physics and Chemistry, 2021, v.180, pp.109244 [11] M.N. Mirzayev. Simultaneous measurements of heat flow rate and thermal properties of nano boron trioxide under neutron irradiation at the low and high temperature. Vacuum, 2020, v.173, pp.109162. [12] M.N. Mirzayev. International Journal of Modern Physics B, 2020, v.34, pp.2050160. [13] M.N. Mirzayev, B.A. Abdurakhimov, E. Demir, A.A. Donkov, E. Popov, M. Yu. Tashmetov, I.G. Genov, T.T. Thabethe, K. Siemek, K. Krezhov, F. Mamedov, D.M. Mirzayeva, M.V. Bulavin, V.A. Turchenko, T.X. Thang, T.Z. Abdurakhmonov, P. Horodek. Physica B: Condensed Matter, 611, 2021, 412842. [14] M.N. Mirzayev, E. Popov, E. Demir, B. Abdurakhimov, D.M. Mirzayeva, V.N. Tiep, G.I. Georgiev, A.K. Mutali, M.B. Mamatova. Thermophysical behavior of nano boron trioxide under high intense electron beam irradiation. Advanced Physical Research, 2019, v.1, pp.63-69. [15] M.N. Mirzayev. Study thermodynamic assessment of the B-C and B-Si binary systems with swift heavy ions and high intense electron beam irradiation at the low temperature. Modern Physics Letters B, 2020, v.34, pp.2050395. [16] M.N. Mirzayev, B.A. Abdurakhimov, S.H. Jabarov, M.Yu. Tashmetov, E. Demir, N.V. Tiep, N.A. Ismayilova,Y.I. Aliyev, E.Popov, D.M. Mirzayeva, S.I. Karaaslan, G.I.Georgiev. International Journal of Modern Physics B, 2020, v.34, pp.2050008. [17] M.N. Mirzayev, E. Popov, E.Demir, B.A. Abdurakhimov, D.M. Mirzayeva, V.A. Skuratov, A.K.Mutali, V.N. Tiep, S. Biira, M.Yu. Tashmetov, K. Olejniczak, O. Kristavchuk. Journal of Alloys and Compounds, 2020, v.834, pp.155119. [18] M.N.Mirzayev,Kh. Mammadov, R.N. Mehdiyeva, R.G. Garibov, B.A. Skuratov, N.V. Tiep, E.B.Askerov, E. Demir, A.B. Tugrul, S.H. Jabarov. Journal of Radiation Researches, 2018, № 2, 5, pp.173-178. [19] Ertuğrul Demir, Matlab N. Mirzayev, A. Beril Tugrul, Yury M. Gledenov, Vitali A. Turchenko, Ozan Yılmaz, Bülent Büyük and M. Lütfi Öveçoğlu. Investigations on surface morphologies, microstructure and thermal properties of tungsten-based composites, Modern Physics Letters B 33(19):1950216, 2019. [20] M.N. Mirzayev, S.H. Jabarov, E.B. Asgerov, R.N. Mehdiyeva, T.T. Thabethe, S. Biira, N.V. Tiep. Crystal structure changes and weight kinetics of silicon-hexaboride under gamma irradiation dose, Results in Physics. vol. 10, 2018, pp 541-545. [21] M.N. Mirzayev, Kh.F.Mammadov, R.G.Garibov, E.B. Askerov. Thermophysical properties of boron carbide irradiated by ionizing radiation, High Temperature, 2018, vol. 56, Issue 3, pp 374–377. [22] F.G. Agayev, S.H. Jabarov, G.Sh. Ayyubova, M.N. Mirzayev, S.V. Trukhanov, E.L. Trukhanova, M.A. Darwish, S.V. Podgornaya, D.A. Vinnik, T.P. Hoang, N.T. Dang, A.V. Trukhanov. Structure and thermal properties of BaFe11.1In0.9O19 hexaferrite, Physica B: Condensed Matter, 580, 2020, 411772. [23] M.N. Mirzayev, R.N. Mehdiyeva, R.G. Garibov, N.A. Ismayilova, S.H. Jabarov. Influence of gamma irradiation on the surface morphology, XRD and thermophysical properties of silicide hexoboride, Modern Physics Letters B, vol. 32, № 14, 1850151, 2018. [24] M.N. Mirzayev, R.N. Mehdiyeva, Kh.F. Mammadov, S.H. Jabarov, E.B. Asgerov. Physics of Particles and Nuclei Letters (Physics of Solid State and Condensed Matter), 2018, vol. 15, № 6, pp. 673–677. [25] R.F. Hashimov, F.A. Mikailzade, S.V.Trukhanov, N.M. Lyadov, I.R. Vakhitov, A.V. Trukhanov, M.N. Mirzayev. Structure and thermal analysis of Ba0.5La0.5MnO3 polycrystalline powder, International Journal of Modern Physics B, vol. 33, 2019, 1950244. [26] M.N. Mirzayev, S.H. Jabarov, E.B. Asgerov, R.N. Mehdiyeva, T.T. Thabethe, S. Biira, N.V. Tiep. X-ray diffraction and thermodynamics kinetics of SiB6 under gamma irradiation dose, Silicon, 2019, 11 (5), 2499-2504. [27] Matlab N. Mirzayev. Oxidation kinetics of boron carbide ceramic under high gamma irradiation dose in the high temperature, Ceramics International, 2020, 46 (3), 2816-2822. [28] M.N. Mirzayev, Kh.F. Mammadov, V.A. Skuratov, E. Demir, S.H. Jabarov, N.A. Ismayilova, S. Biira, B. Abdurakhimov, E. Popov. Journal of Alloys and Compounds, volume 801, 2019, p. 151-157. [29] E.P. Popov, A.N. Chernikov, A.I. Beskrovnyi, J. Waliszewski, M.N. Mirzayev. Journal of Physics: Conference Series 1492 (1), 012054, 2020. [30] Matlab Mirzayev, Ertugrul Demir, Khagani Mammadov, Ravan Mehdiyeva, Sakin Jabarov, A. Beril Tugrul, Saphina Biira, Nguyen Tiep, Thabsile Thabethe. Thermodynamics kinetics of boron carbideunder gamma irradiation dose, International Journal of Modern Physics B, 2019, vol. 33, № 9, 1950073. [31] M.N. Mirzayev, R.N. Mehdiyeva, S.Z. Melikova, S.H. Jabarov, T.T. Thabethe, S. Biira, M.A. Kurbanov, N.V. Tiep. Formation of Color Centers and Concentration of Defects in Boron Carbide Irradiated at Low Gamma Radiation Doses, Journal of the Korean Physical Society, 2019, vol. 74, № 4, pp. 363-367. [32] F. Cataldo, S. Iglesias-Groth. Neutron damage of hexagonal boron nitride. Journal of Radioanalytical and Nuclear Chemistry, 2017, v.313, pp.261-271. [33] E. Demir, M.N. Mirzayev, A.B. Tugrul, B.A. Abdurakhimov. An experimental study on microstructure of tungsten alloys. Surface Review and Letters, 2020, v.27, pp.1950169. [34] E. Demir, Y.M. Gledenov, A.B. Tuğrul, M.N. Mirzayev, V.A. Turchenko, O. Yilmaz, B. Büyük, E. Sansarbayar, M.L. Öveçoğlu. Investigations on microstructure and thermal properties of tungsten-based composites. Modern Physics Letters B, 2019, v.33(19), pp.1950216. [35] T. Mori, T. Nishimura. Thermoelectric properties of homologous p- and n-type boron-rich borides. Journal of Solid State Chemistry, 2006, v.179, pp.2908-2915. [36] A. Jay, D.O. Hardouin, J. Sjakste, N. Vast. Theoretical phase diagram of boron carbide from ambient to high pressure and temperature. Journal of Applied Physics, 2019, v.125, pp.185902. [37] E. Demir, M.N. Mirzayev, E.P. Popov, P. Horodek, I.G. Genov, K. Siemek, D.M. Mirzayeva, V.A. Turchenko, M. Bulavin, A.I. Beskrovnyi, A.H. Valizade, H.V. Akhundzada, S.I. Karaaslan, Effects of high-energetic 3He+ ion irradiation on tungsten-based composites, Vacuum, 184, 2021, 109934. [38] Y.I. Aliyev, P.R. Khalilzade, Y.G. Asadov, T.M. Ilyasli, F.M. Mammadov, N.A. Ismayilova, M.N. Mirzayev, S.H. Jabarov, N.T. Dang, Behavior of thermal properties of AgCu1− xFexS compounds under non-isothermal conditions, International Journal of Modern Physics B, 33 (28), 1950339, 2020. [39] V.A. Abdurahmanova, N.M. Abdullaev, Sh.S. Ismayilov, M.N. Mirzayev, The thermal properties of SnSe and Sm1−xCexSnSe2 (x= 0.02–0.5) compounds, International Journal of Modern Physics B, 34 (18), 2020, 2050167. [40] Y.I. Aliyev, Y.G. Asadov, T.M. Ilyasli, F.M. Mammadov, T.G. Naghiyev, Z.A. Ismayilova, M.N. Mirzayev, S.H. Jabarov. Structural aspects of thermal properties of AgCuS compound, Modern Physics Letters B, 34 (05), 2020, 2050066. [41] S.R. Azimova, N.M. Abdullayev, Y.I. Aliyev, M.N. Mirzayev, V.A. Skuratov, A.K. Mutali, S.H. Jabarov. Study on the Thermodynamic Behavior of Sb-Te Binary Systems with Swift Heavy-Ions Irradiation at the High Temperatures, Journal of the Korean Physical Society, 77 (3), 240-246, 2020. |