Abstract
Engineered cementitious composite (ECC) is a new generation of fiber-reinforced concrete with high ductility and exceptional crack control capabilities. However, ECC can suffer a substantial reduction in ductility when exposed to elevated temperatures resulting in a loss of crack-bridging ability. In this study, the effect of adding basalt fiber (BF), which is an inorganic fiber with high-temperature resistance for the production of ECC, was studied. Moreover, the change in the mechanical properties of ECC, including compressive, tensile, and flexural strength, was experimentally investigated under elevated temperatures up to 400 °C. The results showed that the addition of BF to reinforced ECC improved the tensile and flexural strength of concrete effectively, but compressive strength marginally decreased. A significant decrease was observed in the range from 300 to 400 °C, while it increased smoothly when heated up to 300 °C. The compressive and flexural strength diminished after a slight strain gained when heated up to 100 °C. This work paves the way for future investigations focusing on the development of high-temperature resistance ECC.
Highlights
Published: 26 July 2021Structures made of cementitious composites are widely constructed all around the world [1,2,3]
The compressive strength made according to the ASTM C109/C109 M-08 standard was first tested after 28 days of of the samples in fiber-reinforced and fiber-free specimens was 41.7 MPa and 43.3 MP, curing at room temperature without exposure to high temperatures
The flexural strength test at 28 days of Engineered cementitious composite (ECC) prism specimens was performed with a threepoint loading configuration conforming to ASTM C348-08
Summary
Structures made of cementitious composites are widely constructed all around the world [1,2,3]. Achieving enhanced properties for cementitious composites in the fresh and hardened states could improve the performance of structures and reduce maintenance costs due to the fact of damages [4,5]. Engineered cementitious composite (ECC) is a new generation of high-performance fiber-reinforced cementitious composites characterized by high ductility, enhanced durability, and unique multiple fine cracking behaviors [6,7,8]. Engineered cementitious composite is generally composed of fine aggregates, admixtures, cement, additives, fibers, and water. ECC consists of well-graded, fine aggregate; no coarse aggregates are added to the matrix composition.
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