Experimental Study of the Flexural Behaviour of RC Beams Made of Eco-friendly Sawdust Concrete and Strengthened by a Wooden Plate

被引:0
作者
Ahmed M. Maglad
Walid Mansour
Sabry Fayed
Bassam A. Tayeh
Ahmed M. Yosri
M. Hamad
机构
[1] Najran University,Department of Civil Engineering
[2] Kafrelsheikh University,Civil Engineering Department, Faculty of Engineering
[3] Islamic University of Gaza,Civil Engineering Department, Faculty of Engineering
[4] Delta University for Science and Technology,Civil Engineering Department, Faculty of Engineering
来源
International Journal of Concrete Structures and Materials | / 17卷
关键词
Sawdust; Wood recycling; Wooden plate; Strengthening; RC beams; Flexural strength; Mechanical properties; Partial sand replacement;
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中图分类号
学科分类号
摘要
In this paper, the effectiveness of the strengthening by a wooden plate for reinforced concrete (RC) beams that incorporate waste sawdust (SD) as a partial substitute for fine aggregate (sand) has been investigated. To this end, two types of concrete mixtures were made: normal concrete (NC) and sawdust concrete (SDC), which was made by substituting 15% of the volume of sand with SD. Five RC beams (100 mm in depth, 200 mm in width, and 1500 mm in length) were experimentally tested for flexural behavior under four-point loading. Three strengthening schemes were used in this study. The first scheme used a wooden plate that was only fixed by an adhesive layer. The second and third schemes were applied by a wooden plate, which was fixed by an adhesive layer and steel angles (two and eleven angles). The findings of the study indicate that although the concrete's workability, compressive, and splitting tensile strengths were reduced with the addition of SD, the ultimate load of the beam with SD was lower than that of the control beam, with a slight variation of approximately 4%. Moreover, strengthening the RC beam with a wooden plate and two steel angles yielded the highest load capacity among all tested beams, 20% higher than the control specimen. The study's findings offered useful information for developing eco-friendly sawdust concrete beams with efficient strengthening techniques for potential future uses.
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[1]  
Abadel A(2022)Experimental study of shear behavior of CFRP strengthened ultra-high-performance fiber-reinforced concrete deep beams Case Studies in Construction Materials 16 e01103-6
[2]  
Abbas H(2023)Application of ultra-high-performance concrete in bridge engineering: Current status, limitations, challenges, and future prospects Buildings 13 185-1027
[3]  
Almusallam T(2022)The effect of openings on the performance of self-compacting concrete with volcanic pumice powder and different steel fibers Case Studies in Construction Materials 17 e01148-999
[4]  
Alshaikh IM(2017)A review of the use of corncob ash as a supplementary cementitious material European Journal of Engineering and Technology Research 2 1-618
[5]  
Khawaji M(2018)Effective use of sawdust for the production of eco-friendly and thermal-energy efficient normal weight and lightweight concretes with tailored fracture properties Journal of Cleaner Production 184 1016-9
[6]  
Alghamdi H(2022)Shear strengthening of reinforced concrete beams with minimum CFRP and GFRP strips using different wrapping technics without anchoring application Steel and Composite Structures 18 986-103
[7]  
Salah AA(2017)Influence of polypropylene fibers on the flexural behavior of reinforced concrete slabs with different opening shapes and sizes Structural Concrete 12 1724-332
[8]  
Abdal S(2022)Progressive collapse resistance of RC beam-slab substructures made with rubberized concrete Buildings 18 611-106
[9]  
Mansour W(2004)An experimental study of the jacketed reinforced-concrete beams under bending Construction and Building Materials 233 117194-376
[10]  
Agwa I(2020)Experimental investigation on mechanical properties of plain and rubberised concretes with steel–polypropylene hybrid fibre Construction and Building Materials 320 126233-726
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