Size effects in unreinforced and lightly reinforced concrete beams failing in flexure

Augusthus Nelson, L; Lees, J; Weekes, L

doi:10.1016/j.engfracmech.2021.107987

Size effects in unreinforced and lightly reinforced concrete beams failing in flexure

Augusthus Nelson, L; Lees, J; Weekes, L

Authors

Dr Levingshan Augusthus Nelson L.AugusthusNelson@salford.ac.uk
Lecturer

J Lees

L Weekes

Abstract

Fracture-based models commonly use a characteristic length as the basis for
determining size effects in concrete beams. The characteristic length is related
to the concrete fracture process zone and defined in terms of the concrete fracture properties. Semi-empirical constants are then developed to accommodate
any unidentified (geometric or crack bridging) parameters. However, a reliance
on semi-empirical factors can limit the applicability to different systems, concretes and reinforcing materials. The aim of the current work is to formulate an
analytical size effect model based solely on fundamental material and geometric
properties. The particular focus is unreinforced and lightly reinforced concrete
beams that fail in flexure due to unstable crack propagation. The proposed
’generalised’ characteristic length approach is based on the mode-I fracture behaviour of concrete and includes crack bridging forces due to the presence of
longitudinal reinforcement. The theoretical expressions suggest that the geometric shape of a beam, the fracture properties of the concrete and the crack
bridging forces (where present) significantly influence the characteristic length.
Experimental investigations on geometrically similar unreinforced and lightly
reinforced concrete beams in 2-D are undertaken as a means for initial validation. The validation is then extended to a wider dataset of existing experimental results in the literature. The generalised characteristic length approach is able
to capture both the influence of the concrete strength and the size effect mitigation due to the inclusion of longitudinal reinforcement. This confirms that the
generalised approach holds promise and could be expanded to other quasi-brittle
materials and non-conventional reinforcing materials.

Citation

Augusthus Nelson, L., Lees, J., & Weekes, L. (2022). Size effects in unreinforced and lightly reinforced concrete beams failing in flexure. Engineering Fracture Mechanics, 259, 107987. https://doi.org/10.1016/j.engfracmech.2021.107987

Journal Article Type	Article
Acceptance Date	Aug 31, 2021
Online Publication Date	Sep 23, 2021
Publication Date	Jan 1, 2022
Deposit Date	Sep 2, 2021
Publicly Available Date	Sep 23, 2022
Journal	Engineering Fracture Mechanics
Print ISSN	0013-7944
Publisher	Elsevier
Volume	259
Pages	107987
DOI	https://doi.org/10.1016/j.engfracmech.2021.107987
Publisher URL	https://doi.org/10.1016/j.engfracmech.2021.107987
Related Public URLs	http://www.journals.elsevier.com/engineering-fracture-mechanics/
Additional Information	Funders : Overseas Research Studentship;Cambridge Commonwealth Trust