Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The strength of recycled aggregate (RA) is low, which makes the performance of recycled aggregate concrete (RAC) poor, and the addition of fiber can make up for the shortcoming of RAC. In this paper, the mechanical properties of RAC which was added with steel fiber were studied. The specimens with RA content of 0%, 40%, 70% 100% and steel fiber content of 0%, 0.5% and 1% were prepared, and their mechanical properties were tested. The results showed that the slump reduced 73.75% after the addition of 100% RA and 37.5% after the addition of 1% steel fiber compared to R0S0; from the perspective of mechanical properties, the larger the content of steel fiber, the better the mechanical properties of the specimen; the improvement of the tensile strength was the most obvious after the addition of steel fiber. The experimental results show that steel fiber can improve the performance of RAC and make it perform better in practical application.
Czasopismo
Rocznik
Tom
Strony
693--703
Opis fizyczny
Bibliogr. 20 poz., il., tab.
Twórcy
autor
- School of urban construction, Wuchang University of Technology, Wuhan, China
Bibliografia
- 1. P. Shafigh, M. A. Nomeli, U. J. Alengaram, H. B. Mahmud, Z. Jumaat, “Engineering properties of lightweight aggregate concrete containing limestone powder and high volume fly ash”, Journal of Cleaner Production 135: 148-157, 2016.
- 2. N. Tošić, S. Marinković, T. Dašić, M. Stanić, “Multicriteria optimization of natural and recycled aggregate concrete for structural use”, Journal of Cleaner Production 87(1): 766-776, 2015, 2015.
- 3. G. Chen, “Fracture behaviour of steel fibre reinforced recycled aggregate concrete after exposure to elevated temperatures”, Construction and Building Materials 128(71): 272-286, 2016.
- 4. C. Wang, Y. Wu, J. Xiao, “Three-scale stochastic homogenization of elastic recycled aggregate concrete based on nano-indentation digital images”, Frontiers of Structural & Civil Engineering (2): 1-13, 2017.
- 5. Y. Guo, Q. Li, G. Yue, “Mix proportion optimization of high quality recycled coarse aggregate concrete”, Journal of Shenyang Jianzhu University (Natural Science) 33(1): 19-25, 2017.
- 6. J. M. Juez, B. Cazacliu, A. Cothenet, R. Artoni, N. Roquet, “Recycled concrete aggregate attrition during mixing new concrete”, Construction and Building Materials 116: 299-309, 2016.
- 7. K. Wu, S. Luo, “Influence of Replacement Level of Recycled Coarse Aggregate on Fracture Properties of Recycled Aggregate Concrete”, IOP Conference Series Materials Science and Engineering 431(10): 102002, 2018.
- 8. P. Nuaklong, V. Sata, P. Chindaprasirt, “Influence of recycled aggregate on fly ash geopolymer concrete properties”, Journal of Cleaner Production 112(JAN.20PT.4): 2300-2307, 2016.
- 9. V. W. Y. Tam, D. Kotrayothar, J. Xiao, “Long-term deformation behaviour of recycled aggregate concrete”, Construction and Building Materials 100(DEC.15): 262-272, 2015.
- 10. J. A. Carneiro, P. R. L. Lima, M. B. Leite, R. D. T. Filho, “Compressive stress-strain behavior of steel fiber reinforced-recycled aggregate concrete”, Cement & Concrete Composites 46: 65-72, 2014.
- 11. R. B. Ramesh, O. Mirza, W. H Kang, “Mechanical properties of steel fiber reinforced recycled aggregate concrete”, Structural Concrete 20(2): 745-755, 2019.
- 12. M. Pepe, R. D. T. Filho, E. A. B. Koenders, E. Martinelli, “A novel mix design methodology for Recycled Aggregate Concrete”, Construction and Building Materials 122: 362-372, 2016.
- 13. W. Song, J. Yin, “Hybrid Effect Evaluation of Steel Fiber and Carbon Fiber on the Performance of the Fiber Reinforced Concrete”, Materials 9(8): 704-, 2016.
- 14. A. Mazzoli, S. Monosi, E. S. Plescia, “Evaluation of the early-age-shrinkage of Fiber Reinforced Concrete (FRC) using image analysis methods”, Construction and Building Materials 101: 596-601, 2015.
- 15. S. Sarangi, A. K. Sinha, “Mechanical properties of Hybrid Fiber Reinforced Concrete”, Indian Journal of Science and Technology 9(30): 1, 2016.
- 16. Y. Nurchasanah, M. A. Masoud, M. Solikin, “Steel Fiber Reinforced Concrete to Improve the Characteristics of Fire-Resistant Concrete”, Applied Mechanics and Materials 845: 220-225, 2016.
- 17. D. Y. Yoo, J. M. Yang, “Effects of stirrup, steel fiber, and beam size on shear behavior of high-strength concrete beams”, Cement and Concrete Composites 87: 137-148, 2018.
- 18. A. Behnood, J. Olek, M. A. Glinicki, “Predicting modulus elasticity of recycled aggregate concrete using M5′ model tree algorithm”, Construction and Building Materials 94: 137-147, 2015.
- 19. R. U. D. Nassar, P. Soroushian, “Use of Recycled Aggregate Concrete In Pavement Construction”, Journal of Solid Waste Technology and Management 42(2): 137-144, 2016.
- 20. M. C. Rao, S. K. Bhattacharyya, S. V. Barai, “Microstructure of Recycled Aggregate Concrete”, Journal of Structural Engineering 38(1): 75-83, 2019.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-71e8d9fc-9fdf-4912-ae48-6c7a42d74b5a