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Vol.4 , No. 3, Publication Date: May 31, 2018, Page: 47-50
 by roasting in the complex gaseous environment. The model calculation of composition of the recovery gas environment is presented. The kinetics of the reaction of oxides restoration and their substitution in the material grid lattice is discussed in it.&picture=http://www.aascit.org/aascit/decorators/img/journal/891.jpg)
| [1] | Yury Ivanovich Bokhan, State Academy of Communication, Vitebsk, Belarus. |
| [2] | Anastasia Anatolevna Varnava, State Academy of Communication, Vitebsk, Belarus. |
The report offers the method of creation of semi-conductor branches of thermoelements on the basis of ceramic materials with the negative temperature resistance coefficient (NTRC) by roasting in the complex gaseous environment. The model calculation of composition of the recovery gas environment is presented. The kinetics of the reaction of oxides restoration and their substitution in the material grid lattice is discussed in it.
Keywords
Nanocomposites, Ceramic, Spinels, Conversion, Thermoelectric
Reference
| [01] | Rowe D. M. (ed.) CRC Handbook of Thermoelectrics. CRC. Boca Raton.-1995. - 701 p. |
| [02] | Anatychuk L. I. Current Status and some prospects of Thermoelectricity/ Journal of Thermoelectricity/ 2007. №2. P. 7-20. |
| [03] | Clarke D. R. Oxide Thermoelectric Devices: A Major Opportunity for the Global Ceramics Community. / 5th International Congress on Ceramics, Beijing, August 2014. |
| [04] | Terasaki I. High-temperature oxide thermoelectrics. /J. Appl. Phys. 2011. - 110.- 053705. |
| [05] | Feteira A. Negative Temperature Coefficient Resistance (NTSR) Ceramic Thermistors: An Industrial Perspective. J. Am. Ceram. Soc. - 2009. - vol. 92. - №5. - p. 967-983. |
| [06] | Guanchen Li, Eric Tea, Jianqiu Huang First principle thermodynamic study of oxygen vacancy at metal/oxide interface. - arXiv:1611.03411v1 [cond-mat.mtrl-sci] 10 Nov 2016. |
| [07] | Gamsjäger, H., Bugajski, J., Gajda, T., Lemire, R. J., Preis, W., Chemical thermodynamics of Nickel, Nuclear Energy Agency Data Bank, Organisation for Economic Co-operation and Development, Ed., vol. 6, Chemical Thermodynamics, North Holland Elsevier Science Publishers B. V., Amsterdam, The Netherlands. - 2005–623 p. |
| [08] | Khachatur V. Manukyan, Arpi G. Avetisyan, Christopher E. Shuck, Hakob A. Chatilyan, Sergei Rouvimov, Suren L. Kharatyan and Alexander S. Mukasyan. Nickel Oxide Reduction by Hydrogen: Kinetics and Structural Transformations J. Phys. Chem. C. - 2015. - 119 (28). - pp 16131–16138. |
| [09] | Song CHEN, Shu-qiang GUO, Lan JIANG, Yu-ling XU, Wei-zhong DING. Thermodynamic of selective reduction of laterite ore by reducing gases. Trans. Nonferrous Met. Soc. China. – 2015. - 25- pp. 3133−3138. |
| [10] | Bondarenko B. I. Restoration of oxides of metals in complex gas systems. - Kiev. "Navukova Dumka". - 1980. – 387 p. (in Rus). |
| [11] | Hamdani M., Singh R. N., Chartier P. Co3O4 and Co-Based Spinel Oxides Bifunctional Oxygen Electrodes. Int. J. Electrochem. Sci. - 2010. – 5. - pp. 556–577. |
| [12] | Tobias Binninger, Rhiyaad Mohamed, Kay Waltar, Emiliana Fabbri, Pieter Levecque, Rüdiger Kötz, Thomas J. Schmidt, Thermodynamic explanation of the universal correlation between oxygen evolution activity and corrosion of oxide catalysts. Scientific Reports. 16 July. - 2015. – pp. 1-7. |
