CaPrM: Carbonation prediction model for reinforced concrete using machine learning methods

CaPrM: Carbonation prediction model for reinforced concrete using machine learning methods Advances in Engineering

Journal Reference

Construction and Building Materials, Volume 100, 2015, Pages 70-82.

Woubishet Zewdu Taffese, Esko Sistonen, Jari Puttonen

Department of Civil and Structural Engineering, Aalto University, P.O. Box 12100, FI-00076 Aalto, Finland.

Abstract

Reliable carbonation depth prediction of concrete structures is crucial for optimizing their design and maintenance. The challenge of conventional carbonation prediction models is capturing the complex relationship between governing parameters. To improve the accuracy and methodology of the prediction a machine learning based carbonation prediction model which integrates four learning methods is introduced. The model developed considers parameters influencing the carbonation process and enables the user to choose the best alternative of the machine based methods. The applicability of the method is demonstrated by an example where the carbonation depths are estimated using the developed model and verified with unseen data. The evaluation proofs that the model predicts the carbonation depth with a high accuracy.

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