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ВОЗМОЖНЫЕ КОНЦЕПТУАЛЬНЫЕ КОНСТРУКТЫ ДЛЯ ПОСТРОЕНИЯ КОНЦЕПТУАЛЬНЫХ СИСТЕМ ХИМИИ

Научная статья
Иванов В.В.
Выпуск: № 8 (15), 2013
Опубликована:
2013/08/31
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Иванов В.В.

Кандидат химических наук, доцент, Южно-Российский государственный технический университет (Новочеркасский политехнический институт)

ВОЗМОЖНЫЕ КОНЦЕПТУАЛЬНЫЕ КОНСТРУКТЫ ДЛЯ ПОСТРОЕНИЯ КОНЦЕПТУАЛЬНЫХ СИСТЕМ ХИМИИ

Аннотация

Обсуждаются возможные концептуальные конструкты для построения концептуальных систем химии.

Ключевые слова: концептуальный конструкт, концептуальная система химии. 

Ivanov V.V.

PhD in Chemistry, associate professor, South-Russian state Еngineering University (Novocherkassk Polytechnic Institute)

POSSIBLE CONCEPTUAL CONSTRUCTS FOR CONSTRUCTION OF A CONCEPTUAL SYSTEMS IN CHEMISTRY

Abstract

The possible conceptual constructs for construction of a conceptual systems in chemistry were discussed.

Keywords: conceptual construct, conceptual system in chemistry.

1 2 3 4

The basic forecasting principles of inorganic substances with necessary properties

The corresponding forecasting principles of an inorganic substances with necessary properties are may be formulated in the following way.

1. Principle of fragmental construction of the substances. Crystal structure of any substance may be presented by fragments, and the composition (qualitative and quantitative), the structure, the condition and the property of their fragments are the completely set of the composition, the structure and the diagnostic property of substances.

2. Principle of the predominance of “geometric” factor into crystal structure forming. The correlation of individual elemental characteristic of the structural fragment are shapes its crystal chemical topology and the composition, and therefore, the structure condition and the property of crystal.

3. Principle of the determinate of the crystal structure by structural fragment.Crystal chemical topology and the chemical composition of the structural fragment are the completely determines the structure, the condition and the diagnostic property of crystal.

4. Principle of the determinate of the specific condition of crystal by fragment’s condition. Specific condition of the structural fragment is the result of its crystal chemical topology, the chemical composition and completely determines the structure, the condition and the diagnostic property of crystal.

Let us notes, that their four positions are the basic forecasting and modeling principles of inorganic substances with necessary properties, in particular, ionic conductivity [1, 3-16], electrochemical activity [1, 17-23], some electric, magnetic [24-37] and anti-frictional properties [38-45].

References

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23. Ivanov V.V., Shcherbakov I.N., Ivanov A.V. Modeling One-Stage p-Layered Structures of Ordering and Disordering Intercalated Phase by Alkaline Metals into Graphite // Izv. vuzov. Sev.-Kavk. Region. Tehnicheskie nauki. 2010.  № 2. С.91-98.

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28. Ivanov V.V., Talanov V.M., Shabel’skaya N.P. X-Ray diffraction study of the CuCr2O4 - NiFe2O4 system // Inorganic Materials, 2000. Т.36, №11. С.1167-1172.

29. Ivanov V.V., Talanov V.M., Shabel’skaya N.P. Phase relations in the NiFe2O4 - NiCr2O4 - CuCr2O4  system // Inorganic Materials, 2001. Т.37, №8. С.839-845.

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40. Balakai V.I., Ivanov V.V., Balakai I.V., Arzumanova A.V. Analysis of the phase dosorder in electroplated nickel-boron coatings // Russ. J. Appl. Chem., 2009. Т.82. №.5. С.851-856.

41. Ivanov V.V., Talanov V.M. Combinatorial Design of Poligonal Nanostructures // Information and Structure in the Nanoworld. Conference materials: program and abstracts. 1-3 july 2009. Saint-Peterburg, Russia. 2009. P.67.

42. Bespalova Zh.I., Ivanov V.V., Smirnitskaya I.V., et al. Fabrication of a titanium anode with an active coating based on mixed oxides of base metals // Russ. J. Appl. Chem., 2010. Т.83. № 2. С.242-246.

43. Ivanov V.V., Bespalova Zh.I., Smirnitskaya I.V., et al. Study of the composition of titanium anode with electrocatalytic coat based on cobalt, manganese, and nickel oxides// Russ. J. Appl. Chem., 2010. Т.83. № 5. С.831-834.

44. Ivanov V.V., Shcherbakov I.N. Modeling of Compositional Nickel-Phosphorus Coatings with Anti-frictional Properties. Rostov-on-Don: «Izv. vuzov. Sev.-Kavk. Region. Tehnicheskie nauki», 2008. 112p.

45. Shcherbakov I.N., Ivanov V.V., Loginov V.T., et. al. Chemical Nanoconstruction of Compositional Materials and Coatings with Anti-frictional Properties. Rostov-on-Don: «Izv. vuzov. Sev.-Kavk. Region. Tehnicheskie nauki», 2011. 132p.

46. Ivanov V.V., Talanov V.M. Construction of Fractal Nanostructures Based on Kepler-Shubnikov Nets // Crystallography Reports, 2013. V.58. No.3. pp.383-392.

 

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