Enhancing the tensile capacity of no-slump high-strength high-ductility concrete
- Authors
- Yuan, Tian-Feng; Lee, Jin-Young; Yoon, Young-Soo
- Issue Date
- 2월-2020
- Publisher
- ELSEVIER SCI LTD
- Keywords
- No-slump high-strength high-ductility concrete; Steel fiber; Polyethylene fiber; Synergy effect
- Citation
- CEMENT & CONCRETE COMPOSITES, v.106
- Indexed
- SCIE
SCOPUS
- Journal Title
- CEMENT & CONCRETE COMPOSITES
- Volume
- 106
- URI
- https://scholar.korea.ac.kr/handle/2021.sw.korea/57877
- DOI
- 10.1016/j.cemconcomp.2019.103458
- ISSN
- 0958-9465
- Abstract
- The high shape-holding ability of no-slump concretes (NSC) allows is widely used in roller-compacted and prefabricated concrete. However, it is limited by its low strength properties, and low tensile properties, which lead to potential durability problem in prefabricated concrete. Therefore, this paper aims to investigate the synergy effect in tensile properties of no-slump high-strength high-ductility concrete (NSHSDC) based on polyethylene (PE) and steel fibers (SF). The compressive, flexural, and tensile strength of NSHSDC with three different water-to-binder ratios (w/b) reinforced by 0.0, 1.5 vol% of PE fiber were evaluated. The composites with 16.8% w/b were filtered out due to its poor mechanical properties. The reinforcement characteristics of compressive, flexural, and tensile strength between 16.2% and 17.2% w/b were then compared and analyzed. All composites exhibited a similar compressive strength (>120 MPa), NSHSDC hybrids with different fiber lengths exhibited a flexural strength, tensile strength, and tensile energy absorbing capacity higher than other composites at approximately 18.4%, 14.5%, and 5.4%, respectively. The composites with 17.2% w/b exhibited great mechanical properties than composites with 16.4% w/b; thus, the need for further analysis of its synergy assessment. The composites with 17.2% w/b exhibited a positive synergy and composite hybrids with different fiber lengths established a perfect synergy.
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Collections - College of Engineering > School of Civil, Environmental and Architectural Engineering > 1. Journal Articles
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