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MECHANICAL BEHAVIOR AND OPTIMUM DESIGN OF SFRC PLATES

Koksal, F. / Ilki, A. / Bayramov, F. / Tasdemir, M.A

Abstract The effects of the aspect ratio and the volume fraction of steel fibers on the mechanical behavior of steel fiber reinforced concrete (SFRC) plates are investigated by using EFNARC testing technique. Optimum solutions for the design parameters (L/d) and (Vf) were found while the brittleness of concrete is minimized. The experimental design is done by using Response Surface Method, which is a promising approach for optimizing SFRCs to meet several performance criteria such as minimum brittleness. According to the experimental results, significant improvement on toughness of concrete is observed by addition of steel fibers into concrete and the longer fibers are more effective in obtaining higher toughness results than the shorter ones.

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MECHANICAL BEHAVIOR AND OPTIMUM DESIGN OF SFRC PLATES

Koksal, F. / Ilki, A. / Bayramov, F. / Tasdemir, M.A

Abstract The effects of the aspect ratio and the volume fraction of steel fibers on the mechanical behavior of steel fiber reinforced concrete (SFRC) plates are investigated by using EFNARC testing technique. Optimum solutions for the design parameters (L/d) and (Vf) were found while the brittleness of concrete is minimized. The experimental design is done by using Response Surface Method, which is a promising approach for optimizing SFRCs to meet several performance criteria such as minimum brittleness. According to the experimental results, significant improvement on toughness of concrete is observed by addition of steel fibers into concrete and the longer fibers are more effective in obtaining higher toughness results than the shorter ones.

MECHANICAL BEHAVIOR AND OPTIMUM DESIGN OF SFRC PLATES

Koksal, F. / Ilki, A. / Bayramov, F. / Tasdemir, M.A

Abstract The effects of the aspect ratio and the volume fraction of steel fibers on the mechanical behavior of steel fiber reinforced concrete (SFRC) plates are investigated by using EFNARC testing technique. Optimum solutions for the design parameters (L/d) and (Vf) were found while the brittleness of concrete is minimized. The experimental design is done by using Response Surface Method, which is a promising approach for optimizing SFRCs to meet several performance criteria such as minimum brittleness. According to the experimental results, significant improvement on toughness of concrete is observed by addition of steel fibers into concrete and the longer fibers are more effective in obtaining higher toughness results than the shorter ones.

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Title:

MECHANICAL BEHAVIOR AND OPTIMUM DESIGN OF SFRC PLATES

Contributors:

Koksal, F. (author) / Ilki, A. (author) / Bayramov, F. (author) / Tasdemir, M.A (author)

Published in:

Measuring, Monitoring and Modeling Concrete Properties ; 199-205

Publication date:

2006-01-01

Size:

7 pages

ISBN:

978-1-4020-5104-3 , 978-1-4020-5103-6

DOI:

https://doi.org/10.1007/978-1-4020-5104-3_24

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Steel Fiber , Fiber Volume Fraction , Response Surface Method , Desirability Function , High Strength Concrete Engineering , Building Materials

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