THERMODYNAMIC MODELING OF HEATING CARBON NANOPARTICLES C94 IN ARGON AT ATMOSPHERIC PRESSURE

Dan V P; Terenitev D I; Barbin N M; Alexeev S G

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THERMODYNAMIC MODELING OF HEATING CARBON NANOPARTICLES C94 IN ARGON AT ATMOSPHERIC PRESSURE

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THERMODYNAMIC MODELING OF HEATING CARBON NANOPARTICLES C94 IN ARGON AT ATMOSPHERIC PRESSURE

Journal: NATURAL AND MAN-MADE RISKS (PHYSICO-MATHEMATICAL AND APPLIED ASPECTS) Volume 2015 № 3 , 2015

Rubrics: PHYSICAL AND MATHEMATICAL ASPECTS OF EMERGENCY RESPONSE

Dan V P ¹

Terenitev D I ²

Barbin N M ³

Alexeev S G ⁴

Author and publication information

Authors:

1. Ural institute of State fire service of EMERCOM of Russia, Yekaterinburg

2. Ural institute of State fire service of EMERCOM of Russia, Yekaterinburg

3. Urals state agrarian university, Yekaterinburg

4. Science and engineering centre «Reliability and safety of large systems» of Ural branch of Russian academy of sciences, Yekaterinburg

Type:

Article

Pages:

from 35 to 38

Status:

Published

Received:

12.09.2015

Accepted:

20.09.2015

Published:

25.09.2015

Language:

Russian

Keywords:

94-Ar, carbon nanotubes, thermodynamic modeling, C94-Ar

Abstract and keywords

Abstract (English):
The behavior of carbon nanoparticles when heated in argon at pressure 105 PA in the temperature range from 473 K To 3973 K was considered. the basic physico-chemical processes occurring during the heating C94 was established.

Keywords:
94-Ar, carbon nanotubes, thermodynamic modeling, C94-Ar

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References

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