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Mathematical modeling of steel fiber concrete under dynamic impact

Belov, N.N. / Yugov, N.T. / Kopanitsa, D.G. / Kopanitsa, G.D. / Yugov, A.A. / Shashkov, V.V.

This paper introduces a continuum mechanics mathematical model that describes the processes of deformation and destruction of steel-fiber-concrete under a shock wave impact. A computer modeling method was applied to study the processes of shock wave impact of a steel cylindrical rod and concrete and steel fiber concrete plates. The impact speeds were within 100-500 m/s.

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Mathematical modeling of steel fiber concrete under dynamic impact

Belov, N.N. / Yugov, N.T. / Kopanitsa, D.G. / Kopanitsa, G.D. / Yugov, A.A. / Shashkov, V.V.

This paper introduces a continuum mechanics mathematical model that describes the processes of deformation and destruction of steel-fiber-concrete under a shock wave impact. A computer modeling method was applied to study the processes of shock wave impact of a steel cylindrical rod and concrete and steel fiber concrete plates. The impact speeds were within 100-500 m/s.

Mathematical modeling of steel fiber concrete under dynamic impact

Belov, N.N. / Yugov, N.T. / Kopanitsa, D.G. / Kopanitsa, G.D. / Yugov, A.A. / Shashkov, V.V.

This paper introduces a continuum mechanics mathematical model that describes the processes of deformation and destruction of steel-fiber-concrete under a shock wave impact. A computer modeling method was applied to study the processes of shock wave impact of a steel cylindrical rod and concrete and steel fiber concrete plates. The impact speeds were within 100-500 m/s.

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Title:

Mathematical modeling of steel fiber concrete under dynamic impact

Contributors:

Belov, N.N. (author) / Yugov, N.T. (author) / Kopanitsa, D.G. (author) / Kopanitsa, G.D. (author) / Yugov, A.A. (author) / Shashkov, V.V. (author)

Published in:

Advanced Materials in Construction and Engineering, International Scientific Conference of Young Scientists, 2014 ; 012024/1-012024/5

IOP Conference Series: Materials Science and Engineering (Online) ; 71

Publication date:

2015

Size:

5 Seiten, 1 Quelle

ISSN:

DOI:

https://doi.org/10.1088/1757-899X/71/1/012024

Type of media:

Conference paper

Type of material:

Print

Language:

English

Keywords:

Stahlbeton , Schockwelle , Zerstörung , Kontinuumsmechanik , Computer-Modell , Aufprallgeschwindigkeit

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