Mechanical Properties of Engineered Cementitious Composite Materials Using Different Types of Fibers
Saafan, M., Etman, Z., Rokbah, S. (2021). Mechanical Properties of Engineered Cementitious Composite Materials Using Different Types of Fibers. EKB Journal Management System, 44(4), 433-446. doi: 10.21608/erjm.2021.80561.1099
Mohamed Abdel Aziz Saafan; Zeinab Etman; samar abdel gawad Rokbah. "Mechanical Properties of Engineered Cementitious Composite Materials Using Different Types of Fibers". EKB Journal Management System, 44, 4, 2021, 433-446. doi: 10.21608/erjm.2021.80561.1099
Saafan, M., Etman, Z., Rokbah, S. (2021). 'Mechanical Properties of Engineered Cementitious Composite Materials Using Different Types of Fibers', EKB Journal Management System, 44(4), pp. 433-446. doi: 10.21608/erjm.2021.80561.1099
Saafan, M., Etman, Z., Rokbah, S. Mechanical Properties of Engineered Cementitious Composite Materials Using Different Types of Fibers. EKB Journal Management System, 2021; 44(4): 433-446. doi: 10.21608/erjm.2021.80561.1099

Mechanical Properties of Engineered Cementitious Composite Materials Using Different Types of Fibers

ERJ. Engineering Research Journal
Article 11, Volume 44, Issue 4, October 2021, Page 433-446  XML PDF (2.11 MB)
Document Type: Original Article
DOI: 10.21608/erjm.2021.80561.1099
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Authors
Mohamed Abdel Aziz Saafanorcid 1; Zeinab Etman email orcid 2; samar abdel gawad Rokbahorcid 3
1Civil Eng. Dept., Faculty of Eng., Menoufia University, Shebeen ElKoom, Menoufia, EGYPT
2Civil engineering department, faculty of Engineering, Menoufia University, Egypt
3higher institute of engineering and technology in menoufia
Abstract
An Engineered Cementitious composite is an ultra ductile cementitious composite which is highly crack resistant, with a tensile strain capacity over that of normal concrete. In this study, three different types of PP. fibers are added to cement mortars with the aim to determine how they can be used to develop ECC materials. Fibers are used in different (aspect ratio, tensile strength and different proportions in volume fraction (1.0, 2.0, 3.0 and 4%)) in concrete mixture design. Hardened concrete properties, 28-days splitting tensile strength, flexural strength, cracking width were evaluated. Statistically significant effects were observed for polypropylene fibers on the splitting tensile and flexural strength, toughness indexes, and durability parameters showed an increase in the presence of polypropylene fibers. Increased fiber availability (fiber aspect ratio) in the concrete matrix, in addition to the ability of longer polypropylene fibers to bridge on the micro cracks, are suggested as the reasons for the enhancement in mechanical properties. Finally, crack width in fiber-reinforced concrete is calculated analytically with fiber property variables (fiber type, length, diameter and proportion). Results are compared with experimental values and concluded that with an increase in fiber length and/or decrease in fiber diameter crack width, decrease significantly
Keywords
Engineered Cementitious Composites; Polypropylene Fiber; Flexure; Crack width; ductility
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