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Mechanics of Shear Failure in Fiber-Reinforced Concrete Beams

Sturm, A. B. / Visintin, P. / Oehlers, D. J.

In this paper, a new model, which can be solved either numerically or analytically, is presented for predicting the shear strength of fiber-reinforced concrete beams. This approach is based on predicting the sliding capacity of an inclined crack through the application of fundamental partial-interaction and shear friction theories. A segmental approach is applied to predict this capacity because it has been shown to be able to produce simple analytical solutions while explicitly allowing for the influence of fiber reinforcement and tension stiffening. Once developed, the model is validated against a range of experimental tests and its accuracy is compared to both codified approaches and other approaches in the literature.

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Mechanics of Shear Failure in Fiber-Reinforced Concrete Beams

Sturm, A. B. / Visintin, P. / Oehlers, D. J.

In this paper, a new model, which can be solved either numerically or analytically, is presented for predicting the shear strength of fiber-reinforced concrete beams. This approach is based on predicting the sliding capacity of an inclined crack through the application of fundamental partial-interaction and shear friction theories. A segmental approach is applied to predict this capacity because it has been shown to be able to produce simple analytical solutions while explicitly allowing for the influence of fiber reinforcement and tension stiffening. Once developed, the model is validated against a range of experimental tests and its accuracy is compared to both codified approaches and other approaches in the literature.

Mechanics of Shear Failure in Fiber-Reinforced Concrete Beams

Sturm, A. B. / Visintin, P. / Oehlers, D. J.

In this paper, a new model, which can be solved either numerically or analytically, is presented for predicting the shear strength of fiber-reinforced concrete beams. This approach is based on predicting the sliding capacity of an inclined crack through the application of fundamental partial-interaction and shear friction theories. A segmental approach is applied to predict this capacity because it has been shown to be able to produce simple analytical solutions while explicitly allowing for the influence of fiber reinforcement and tension stiffening. Once developed, the model is validated against a range of experimental tests and its accuracy is compared to both codified approaches and other approaches in the literature.

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Title:

Mechanics of Shear Failure in Fiber-Reinforced Concrete Beams

Contributors:

Sturm, A. B. (author) / Visintin, P. (author) / Oehlers, D. J. (author)

Published in:

Journal of Structural Engineering ; 147

Publication date:

2020-12-17

ISSN:

0733-9445 , 1943-541X

DOI:

https://doi.org/10.1061/(ASCE)ST.1943-541X.0002934

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

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