Studies on Base Restrained Walls and Tanks Subjected to Shrinkage (Prepublished)

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Title: Studies on Base Restrained Walls and Tanks Subjected to Shrinkage (Prepublished)

Author(s): Amrit Bahl, Mohammad Najeeb Shariff, and Sankati Yellamanda

Publication: Structural Journal

Volume:

Issue:

Appears on pages(s):

Keywords: bond-slip; crack; nonlinear finite element (fe) modeling; reinforced concrete; restrained shrinkage; stress-growth functions

DOI: 10.14359/51749261

Date: 10/15/2025

Abstract:
Reinforced concrete (RC) members undergoing shrinkage are susceptible to cracking when restrained; however, studies on this behavior are limited. Thus, the main objective of this paper is to present crack-widths, crack-patterns, and shrinkage strains from an experimental study on three RC walls with aspect ratios of 3.26 and 1.08, and horizontal reinforcement ratios of 0.2% and 0.35%, as well as a rectangular tank with 0.24% reinforcement. A 3-D nonlinear finite element (FE) analysis is conducted, and the results reveal that although the model predicts strains and maximum crack-widths reasonably well, the crack-pattern differs from the experiments. The possible reasons for this difference are discussed, and a parametric study is done to propose design equations to estimate restraint factors along the wall centerline for different aspect ratios. These equations can be used to estimate the cracking potential in the design stage without the need for a nonlinear FE analysis. For L/h above four, horizontal reinforcement has a negligible effect on the restraint, and for L/h above eight, full-height cracks can be expected due to almost uniform restraint. Finally, the design codes are compared, and it is found that ACI 207.2R-07 and CIRIA C766 predict shrinkage-induced crack-widths conservatively and reasonably accurately.


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Electronic Structural Journal



  

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