Cracking for Low-reinforced RC Members under Uniaxial Tension

Theodoros Chrysanidis; Vassilis Panoskaltsis

Cracking for Low-reinforced RC Members under Uniaxial Tension

Theodoros Chrysanidis Democritus University of Thrace, Xanthi, Greece.
Vassilis Panoskaltsis Democritus University of Thrace, Xanthi, Greece.

Keywords: Cracks, uniaxial tension, width, spacing, tensile degree

Abstract

Given the random nature of crack formation, research into reinforced concrete members in the context of cracking behavior proves difficult. Therefore, widely accepted methodologies for predicting crack characteristics, e.g. crack width and spacing and number of cracks, have not been developed yet. Furthermore, cracking for members strained until high degrees of elongation, as takes place during earthquakes, has not been investigated before. This experimental work aims to look into the impact, primarily of tensile deformations mechanical factor, in terms of cracking behaviour. Four test specimens were strained under uniaxial tensile loading. The degrees of elongation used were equal to 10, 20, 30 and 50. Useful conclusions concerning cracking behaviour are derived.

Published

2020-06-08

How to Cite

Chrysanidis, T., & Panoskaltsis, V. (2020). Cracking for Low-reinforced RC Members under Uniaxial Tension. Emerging Trends in Engineering Research and Technology Vol. 3, 43-54. Retrieved from https://stm1.bookpi.org/index.php/etert-v3/article/view/1421

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Issue

Emerging Trends in Engineering Research and Technology Vol. 3

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Chapters