Sahith Gali scite author profile

Sahith Gali

5Publications

41Citation Statements Received

38Citation Statements Given

How they've been cited

116

How they cite others

121

Affiliations

Iowa State University, Indian Institute of Technology Hyderabad

Publications

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Shear behavior of steel fiber reinforced concrete using full-field displacements from digital image correlation

Gali

Subramaniam

2017

MATEC Web Conf.

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Abstract. Reinforced concrete beams with discrete hooked-end steel fibers at 0.5% volume fraction are tested with a shear span to depth (a/d) ratio equal to 1.8. Digital image correlation (DIC) technique was used to obtain the full-filed displacements from the beam. The formation and propagation of a shear crack which directly influences the load response and the peak load in the load response of the beam is monitored using the displacement information available from DIC. There is a continuous increase in slip across the crack faces with increasing load, which produces an increase in the crack opening. The dilatant behavior indicated by the proportion of crack opening to slip displacement obtained from the control and the SFRC beams is identical. Failure in control beams is brittle and was produced by the opening of dominant shear crack within the shear span. At the peak load, the shear crack pattern in fiber reinforced concrete is identical to the crack pattern in the control beam. The fiber reinforced concrete beams exhibit post peak load carrying capacity with continued slip of the dominant shear crack. The crack bridging stress provided by the fibers results in a significant increase shear transfer across the crack which provides significant post-peak load carrying capacity with increasing slip of the shear crack.

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Evaluation of Crack Propagation and Post-cracking Hinge-type Behavior in the Flexural Response of Steel Fiber Reinforced Concrete

Gali

Subramaniam

2017

Int J Concr Struct Mater

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An experimental evaluation of crack propagation and post-cracking behavior in steel fiber reinforced concrete (SFRC) beams, using full-field displacements obtained from the digital image correlation technique is presented. Surface displacements and strains during the fracture test of notched SFRC beams with volume fractions (V f ) of steel fibers equal to 0.5 and 0.75% are analyzed. An analysis procedure for determining the crack opening width over the depth of the beam during crack propagation in the flexure test is presented. The crack opening width is established as a function of the crack tip opening displacement and the residual flexural strength of SFRC beams. The softening in the post-peak load response is associated with the rapid surface crack propagation for small increases in crack tip opening displacement. The load recovery in the flexural response of SFRC is associated with a hinge-type behavior in the beam. For the stress gradient produced by flexure, the hinge is established before load recovery is initiated. The resistance provided by the fibers to the opening of the hinge produces the load recovery in the flexural response.

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Investigation of the dilatant behavior of cracks in the shear response of steel fiber reinforced concrete beams

Gali

Subramaniam

2017

Engineering Structures

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Improvements in fracture behavior and shear capacity of fiber reinforced normal and self consolidating concrete: A comparative study

Gali

2018

Construction and Building Materials

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Multi-linear stress-crack separation relationship for steel fiber reinforced concrete: Analytical framework and experimental evaluation

Gali

2018

Theoretical and Applied Fracture Mechanics

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Sahith Gali

Shear behavior of steel fiber reinforced concrete using full-field displacements from digital image correlation

Evaluation of Crack Propagation and Post-cracking Hinge-type Behavior in the Flexural Response of Steel Fiber Reinforced Concrete

Investigation of the dilatant behavior of cracks in the shear response of steel fiber reinforced concrete beams

Improvements in fracture behavior and shear capacity of fiber reinforced normal and self consolidating concrete: A comparative study

Multi-linear stress-crack separation relationship for steel fiber reinforced concrete: Analytical framework and experimental evaluation

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