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82584

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

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Last updated: 04 Jan 2025

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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.

DOI

10.21608/erjm.2003.82584

Keywords

Direct shear, friction reinforcement, carbon fiber concrete, Finite Elements

Authors

First Name

Mohamed

Last Name

M. Safan

MiddleName

-

Affiliation

Lecturer (Dep. of Civil Eng., Faculty of Eng., Menoufia University, Egypt)

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Volume

26

Article Issue

4

Related Issue

12459

Issue Date

2003-10-01

Receive Date

2020-04-15

Publish Date

2003-10-01

Page Start

49

Page End

61

Print ISSN

1110-1180

Online ISSN

3009-6944

Article File

ERJM_Volume 26_Issue 4_Pages 49-61.pdf

PDF . 3.6MB

Link

https://erjm.journals.ekb.eg/article_82584.html

Detail API

https://erjm.journals.ekb.eg/service?article_code=82584

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Original Article

Type Code

1,118

Publication Type

Journal

Publication Title

ERJ. Engineering Research Journal

Publication Link

https://erjm.journals.ekb.eg/

MainTitle

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

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Article

Created At

22 Jan 2023