Finite Element Modeling of Direct Shear Transfer in Carbon Fiber Reinforced Concrete
M. Safan, M. (2003). Finite Element Modeling of Direct Shear Transfer in Carbon Fiber Reinforced Concrete. EKB Journal Management System, 26(4), 49-61. doi: 10.21608/erjm.2003.82584
Mohamed M. Safan. "Finite Element Modeling of Direct Shear Transfer in Carbon Fiber Reinforced Concrete". EKB Journal Management System, 26, 4, 2003, 49-61. doi: 10.21608/erjm.2003.82584
M. Safan, M. (2003). 'Finite Element Modeling of Direct Shear Transfer in Carbon Fiber Reinforced Concrete', EKB Journal Management System, 26(4), pp. 49-61. doi: 10.21608/erjm.2003.82584
M. Safan, M. Finite Element Modeling of Direct Shear Transfer in Carbon Fiber Reinforced Concrete. EKB Journal Management System, 2003; 26(4): 49-61. doi: 10.21608/erjm.2003.82584

Finite Element Modeling of Direct Shear Transfer in Carbon Fiber Reinforced Concrete

ERJ. Engineering Research Journal
Article 3, Volume 26, Issue 4, October 2003, Page 49-61  XML PDF (3.45 MB)
Document Type: Original Article
DOI: 10.21608/erjm.2003.82584
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Author
Mohamed M. Safan
Lecturer (Dep. of Civil Eng., Faculty of Eng., Menoufia University, Egypt)
Abstract
A finite element analysis is presented to simulate the behavior of push-
off specimens under direct shear. The model incorporates the material parameters
for reinforcement and the concrete matrix reinforced with carbon fibers. The
experimental results available in the literature were used to validate the numerical
results. Design equations according to the shear-friction concept reported by the
ACI code were revised for sand-lightweight carbon fiber concrete. A more rational
design equation was proposed for this type of concrete.
Keywords
Direct shear; friction reinforcement; carbon fiber concrete; finite elements
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