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Size effect on flexural behavior of ultra-high-performance hybrid fiber-reinforced concrete

Nguyen, Duy-Liem / Kim, Dong-Joo / Ryu, Gum-Sung / Koh, Kyung-Taek

The size effect on the flexural behavior of ultra-high-performance hybrid fiber-reinforced concrete (UHP-HFRC) was investigated. Three different sizes of specimens were tested using four-point bending in a three-dimensional scale: 50 × 50 × 150 mm³ (small), 100 × 100 × 300 mm³ (medium), and 150 × 150 × 450 mm³ (large). For each size, two UHP-HFRCs with different fiber contents were tested to investigate the influence of tensile ductility on the size effect of UHP-HFRC in flexure. UHP-HFRC1 contained 1.0% twisted steel macro-fiber (T-fiber) and 0.5% short, smooth steel micro-fiber (SS-fiber) by volume, while UHP-HFRC2 contained a blend of 1.0% T-fiber and 1.0% SS-fiber. Both UHP-HFRCs demonstrated clear size effect on flexural strength, normalized deflection, and normalized energy absorption capacity. Furthermore, the flexural behavior of UHP-HFRC1, with its lower tensile ductility, was more sensitive to the size of the specimen.

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Size effect on flexural behavior of ultra-high-performance hybrid fiber-reinforced concrete

Nguyen, Duy-Liem / Kim, Dong-Joo / Ryu, Gum-Sung / Koh, Kyung-Taek

The size effect on the flexural behavior of ultra-high-performance hybrid fiber-reinforced concrete (UHP-HFRC) was investigated. Three different sizes of specimens were tested using four-point bending in a three-dimensional scale: 50 × 50 × 150 mm³ (small), 100 × 100 × 300 mm³ (medium), and 150 × 150 × 450 mm³ (large). For each size, two UHP-HFRCs with different fiber contents were tested to investigate the influence of tensile ductility on the size effect of UHP-HFRC in flexure. UHP-HFRC1 contained 1.0% twisted steel macro-fiber (T-fiber) and 0.5% short, smooth steel micro-fiber (SS-fiber) by volume, while UHP-HFRC2 contained a blend of 1.0% T-fiber and 1.0% SS-fiber. Both UHP-HFRCs demonstrated clear size effect on flexural strength, normalized deflection, and normalized energy absorption capacity. Furthermore, the flexural behavior of UHP-HFRC1, with its lower tensile ductility, was more sensitive to the size of the specimen.

Size effect on flexural behavior of ultra-high-performance hybrid fiber-reinforced concrete

Nguyen, Duy-Liem / Kim, Dong-Joo / Ryu, Gum-Sung / Koh, Kyung-Taek

The size effect on the flexural behavior of ultra-high-performance hybrid fiber-reinforced concrete (UHP-HFRC) was investigated. Three different sizes of specimens were tested using four-point bending in a three-dimensional scale: 50 × 50 × 150 mm³ (small), 100 × 100 × 300 mm³ (medium), and 150 × 150 × 450 mm³ (large). For each size, two UHP-HFRCs with different fiber contents were tested to investigate the influence of tensile ductility on the size effect of UHP-HFRC in flexure. UHP-HFRC1 contained 1.0% twisted steel macro-fiber (T-fiber) and 0.5% short, smooth steel micro-fiber (SS-fiber) by volume, while UHP-HFRC2 contained a blend of 1.0% T-fiber and 1.0% SS-fiber. Both UHP-HFRCs demonstrated clear size effect on flexural strength, normalized deflection, and normalized energy absorption capacity. Furthermore, the flexural behavior of UHP-HFRC1, with its lower tensile ductility, was more sensitive to the size of the specimen.

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Title:

Size effect on flexural behavior of ultra-high-performance hybrid fiber-reinforced concrete

Contributors:

Nguyen, Duy-Liem (author) / Kim, Dong-Joo (author) / Ryu, Gum-Sung (author) / Koh, Kyung-Taek (author)

Published in:

Composites, Part B: Engineering ; 45 ; 1104-1116

Publication date:

2013

Size:

13 Seiten, 43 Quellen

ISSN:

DOI:

https://doi.org/10.1016/j.compositesb.2012.07.012

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

Faser , mechanische Eigenschaft , Hybridfaser , Größeneffekt , Duktilität , Biegewechselfestigkeit , Energieabsorption , Fasergehalt , Beton , Rissbildung , Stahlfaser

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