Physics and Chemistry of Solid State

 

2015   Vol.16   №1

Title

Content

Editorial
Board

 

 

DOI: 10.15330/pcss.16.1.136-139

N.Yu. Filonenko

Study of Thermodynamic Functions for Iron Monoboride FeB

Dnipropetrovsk State Medical Academy, Dzerzhinsky str., 9, Dnipropetrovsk, 49044 Ukraine

The thermodynamic quantities for iron monoboride FeB, such as entropy, enthalpy, heat capacity and their temperature dependence, are considered. It is shown, that accounting for contribution to the zeroth-order high-temperature expansion of thermodynamic potential for Fe-B binary alloy enables to describe forming monoboride FeB in more complete way from the viewpoint of thermodynamics.
Keywords: iron monoboride FeB, Gibbs energy, entropy, enthalpy, heat capacity.

Full text (on original language) .pdf
Home 

 Reference

[1] [1] N.P. Ljakishev, Ju.L. Pliner, S.I. Lappo, Borsoderzhashhie stali i splavy (Metallurgija, Moskva, 1986).
[2] G.V. Samsonov, T.I. Serebrjakova, V.A. Neronov, Boridy (Atomizdat, Moskva, 1999).
[3] I.M. Spiridonova, T.V. Sukhovaya, V.P. Balakin, Metallurgia 35(2), 65 (1996).
[4] E.V. Suhovaja, Vіsnik Dnіpropetrovs'kogo unіversitetu. Serіja «Fіzika. Radіoelektronіka» 15-16(2), 106 (2008).
[5] G.A. Dorofeev, L.V. Ovechkin, E.P. Elsukov, V.A. Barinov, Fizika metallov i metallovedenie 76(4), 107 (1993).
[6] Steffi Rades, Andreas Kornowski, Horst Weller, Barbara Albert, Chem. Phys. Chem. 12(9), 1756 (2011).
[7] B. Halemans, P. Wollemans, J.R. Roos, Metallka, 85(10), 676 (1994).
[8] Mitsuhiro Hasebe and T. Nishizawa, Nippere Kinzoku Gakkaishi, J. Jap. Inst. Metals 38(1), 46 (1974).
[9] By Hiroshi Ohtani, Mitsuhiro Hasebe and Taiji Nishizawa, Transactions ISIJ 28, 1043 (1988).
[10] M. Hillert, L. Staffonsson, Acta Chemica Scand. 24(10), 3618 (1970).
[11] Tatsuya Tokunaga, Hiroshi Ohtani and Mitsuhiro Hasebe, Materials Transactions. 46(6), 1193 (2005).
[12] Keita Yoshimoti, Yu Nakama, Hiroshi Ohtani and Mitsuhiro Hasebe, ISIJ International. 48(6), 835 (2008).
[13] O.S. Gorelkin, N.A. Chirkov, O.D. Kolesnik, and A.S. Dubrovin, Russian Journal of Physical Chemistry 46(3), 431 (1972).
[14] S. Sato and O. J. Kleppa, Metallurgical Transactions B-Process Metallurgy 13(2), 251 (1982).
[15] M. Mihalkovic and M. Widom, Physical Review B. 70(14), 144107 (2004).
[16] M.T. Clavagera-mora, M. D. Baro, S. Surinach, N. Clavaguera, Collogue de physique C4. 51(15), 49 (1990).
[17] I.P. Bazarov, Termodinamika (Vysshaja shkola, Moskva, 1991).
[18] L. Zhirifal'ko, Statisticheskaja fizika tverdogo tela (Mir, Moskva, 1975).
[19] S. Raju, Arun Kumar Rai, B. Jeyaganesh, M. Vijayalakshmi, T. Jayakumar and Baldev Raj, Asian Nuclear Prospects 1 (2012).
[20] T. Van Rompaey, K.C. Hari Kumar, P. Wollants, Journal of Alloys and Compound 334, 173 (2002).
[21] M.I. Shahparonov, Vvedenie v molekuljarnuju teoriju rastvorov (Gosudarstvennoe izdatel'stvo tehniko-teoreticheskoj literatury, Moskva, 1956).