AI Article Synopsis
- The study investigates the influence of hooked-end steel fibers on modified self-compacting concrete (SCC) by incorporating residues like marble, granite, and rubber.
- It finds that increased rubber content improves energy absorption, suggesting a viable alternative for structural materials.
- The research assesses both fresh and hardened properties of SCC, revealing that mixtures with these additives can enhance damping ratios while also reducing cement usage, offering potential environmental benefits.
Article Abstract
The aim of this investigation is to determine the effects of hooked-end steel fibers on both the fresh and hardened properties of modified self-compacting concretes (SCC). For this purpose, the steel fibers are associated with other residue contents (i.e., marble, granite, and rubber). These concatenated material contents constitute a novelty since no investigations are reported. It is found that with the increase in rubber content, a better ability to absorb energy is observed. This indicates that a good alternative to structural material is provided. Fresh properties are evaluated by using flow, T time, V-funnel, and J-ring methods. The mechanical behavior is evaluated in terms of compressive strength, tensile strength, static and dynamic modulus of elasticity, and damping ratio. Experimental results of the water absorption, porosity, and density are also attained. It is also found that an SCC mixture containing steel fiber, marble/granite residue, and rubber content is a potential mixture to be considered when designing in SCC associated with an improved damping ratio. Although the rubber content decreases the mechanical behavior and slump flow, the concatenated utilization of marble/granite residues and steel fiber contents provides a slight improvement in the damping result. An environmental benefit can also be associated since cement consumption is decreased with marble additions.
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|---|---|
| http://dx.doi.org/10.3390/ma17235717 | DOI Listing |
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11642231 | PMC |
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