AI Article Synopsis
- The study focuses on predicting the punching shear strength of lightweight concrete slabs, highlighting the need for accurate models due to the dangers of punching shear failure.
- An extensive experimental database was compiled, identifying key factors such as concrete density and reinforcement ratios using statistical methods to assess their impact on slab strength.
- Three artificial intelligence models—genetic programming, artificial neural networks, and evolutionary polynomial regression—were developed to improve prediction accuracy for the strength of lightweight concrete slabs.
Article Abstract
Although lightweight concrete is implemented in many mega projects to reduce the cost and improve the project's economic aspect, research studies focus on investigating conventional normal-weight concrete. In addition, the punching shear failure of concrete slabs is dangerous and calls for precise and consistent prediction models. Thus, this current study investigates the prediction of the punching shear strength of lightweight concrete slabs. First, an extensive experimental database for lightweight concrete slabs tested under punching shear loading is gathered. Then, effective parameters are determined by applying the principles of statistical methods, namely, concrete density, columns dimensions, slab effective depth, concrete strength, flexure reinforcement ratio, and steel yield stress. Next, the manuscript presented three artificial intelligence models, which are genetic programming (GP), artificial neural network (ANN) and evolutionary polynomial regression (EPR). In addition, it provided guidance for future design code development, where the importance of each variable on the strength was identified. Moreover, it provided an expression showing the complicated inter-relation between affective variables. The novelty lies in developing three proposed models for the punching capacity of lightweight concrete slabs using three different (AI) techniques capable of accurately predicting the strength compared to the experimental database.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9024571 | PMC |
| http://dx.doi.org/10.3390/ma15082732 | DOI Listing |
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