Study on reinforced lightweight coconut shell concrete beam behavior under torsion

•Use of coconut shell as aggregate in concrete production.•Behavior of coconut shell concrete under torsion.•Pre and post cracking behavior and analysis.•Torsional reinforcement and ductility.•Crack width and stiffness. This research investigates and evaluates the results of coconut shell concrete b...

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Bibliographic Details
Published in:Materials in engineering 2014-05, Vol.57, p.374-382
Main Authors: Gunasekaran, K., Ramasubramani, R., Annadurai, R., Prakash Chandar, S.
Format: Article
Language:English
Subjects:
Coconut shell
Concrete
Cracks
Ductility
Reinforcement
Torsion
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Summary:•Use of coconut shell as aggregate in concrete production.•Behavior of coconut shell concrete under torsion.•Pre and post cracking behavior and analysis.•Torsional reinforcement and ductility.•Crack width and stiffness. This research investigates and evaluates the results of coconut shell concrete beams subjected to torsion and compared with conventional concrete beams. Eight beams, four with coconut shell concrete and four with conventional concrete were fabricated and tested. Study includes the general cracking characteristics, pre cracking behavior and analysis, post cracking behavior and analysis, minimum torsional reinforcement, torsional reinforcement, ductility, crack width and stiffness. It was observed that the torsional behavior of coconut shell concrete is comparable to that of conventional concrete. Compare to ACI prediction, equation suggested by Macgregor is more conservative in calculating cracking torsional resistance. But for the calculation of ultimate torque strength ACI prediction is more conservative compared to the equation suggested by Macgregor. Indian standard is also conservative in this regard, but it was under estimated compared to ACI and Macgregor equations. Minimum torsional reinforcement in beams is necessary to ensure that the beam do not fail at cracking. Compared to conventional concrete specimens, coconut shell concrete specimens have more ductility. Crack width at initial cracking torque for both conventional and coconut shell concrete with corresponding reinforcement ratios is almost similar.
ISSN:0261-3069
DOI:10.1016/j.matdes.2013.12.058