Abstract:
The maximum crack width of Reinforced Concrete (RC) structures should be controlled for
satisfying the serviceability and durability requirements of the civil engineering structures.
Therefore, care must be taken at the initial design stages for maintaining the possible crack widths
within a permissible range which has been specified under the design standards. However, the
crack width analysis of RC structures is not easy because of the complexity of the parameters which
affect the crack width. If crack width calculation is skipped, the width of the cracks in real concrete
structures can be larger than the maximum limiting allowable value. Circular RC columns and
piles are widely used structural components in modern civil engineering construction projects. As
an example, circular RC piles and columns can be seen in many expressway construction projects
in Sri Lanka to support viaduct structures. The main aim of this research is to develop design
guidance for circular RC columns to estimate the crack width. In the Sri Lankan construction
industry, there is no specific simplified guidance in terms of charts and tables for crack width
estimations of circular RC columns. Hence, it is important to develop such design guidance for
circular RC columns. Although there are a variety of applications of circular RC columns in the
industry, this research deals with the crack width analysis of circular RC columns in straight
viaduct sections. A comprehensive study was carried out regarding the behaviour of the cracks in
circular RC columns in viaduct sections as per the design standard, BS 5400. Autodesk Structural
Bridge Design software was used to perform crack width estimations, and MIDAS Civil software
was used to do the Finite Element (FE) analysis and validation process. The crack width can be
estimated to a 0.01 mm accurately by using the charts developed in this research. This design
guidance is simple to understand, and use. Hence, engineers can perform their preliminary crack
width estimations with less effort using correctly specified methods. Crack width estimation charts
were developed for both uniaxial bending and biaxial bending cases of short circular RC columns
with a diameter of 1.5 m, C 25/30 concrete, a nominal cover of 45 mm, and the main rebars all of
the same diameter. According to the parametric study done for the circular RC columns subjected
to uniaxial bending, the following details were found. Crack width reduces with increasing bar
diameter and number of main rebars. Crack width is low in the columns with high-grade concrete.
When the ratio of Mq/Mg as defined in BS 5400 is decreased, the crack width also decreases. A
significant variation of the crack width can be seen in the cases where, the ratio, Axial load
(ULS)/(Column diameter)2 is in the range of 0.5 to 2.5 N/mm2. The width of the crack is
significantly higher in the case of having higher bending moments with low axial forces. This
research can be extended to develop design guidance for estimating the crack width following latest
standards such as Eurocodes and produce more charts by accounting for the requirements of the
design engineers. The comprehensive design charts developed in this research will be useful in
estimating the crack widths in circular RC columns without the need to follow time-consuming
methods. Therefore, the findings of this research will be helpful to enhance the efficiency of the
design work.
Citation:
Jayaweera, G.C.S., Hidallana-Gamage, H.D. & Indrajith, W.P.R. (2021). Development of design guidance for circular reinforced concrete columns incorporating crack width [Abstract]. In P. Hettiarachchi (Ed.), Proceedings of Civil Engineering Research Symposium 2021 (p. 7). Department of Civil Engineering, University of Moratuwa.