Bibliographic citations
Bernilla, D., (2024). Predicción de la resistencia a la compresión del concreto usando redes neuronales artificiales [Universidad Católica Santo Toribio de Mogrovejo]. http://hdl.handle.net/20.500.12423/7506
Bernilla, D., Predicción de la resistencia a la compresión del concreto usando redes neuronales artificiales []. PE: Universidad Católica Santo Toribio de Mogrovejo; 2024. http://hdl.handle.net/20.500.12423/7506
@misc{renati/583869,
title = "Predicción de la resistencia a la compresión del concreto usando redes neuronales artificiales",
author = "Bernilla Rodriguez, David Henry",
publisher = "Universidad Católica Santo Toribio de Mogrovejo",
year = "2024"
}
Concrete is currently the most widely used construction material due to its exceptional ability to withstand compressive forces, commonly referred to as CS. Determining the CS value of concrete involves conducting various tests, with the uniaxial or simple compression test on concrete specimens being the most employed, assessing resistance at different time intervals. Unfortunately, these test specimens are often discarded outdoors, contributing to environmental pollution. This research focuses on predicting the CS value of concrete at 28 days using a predictive model based on artificial neural networks. Input data include aggregate properties, cement type, and their component proportions such as water, cement, and aggregates. The only output data is the actual CS value obtained from the simple compression test. This data was collected from multiple laboratories in northern Peru. The neural network was constructed using Google's TensorFlow, with two hidden layers consisting of 16 and 8 neurons, respectively, and trained for 450 epochs. Prediction accuracy exceeded 90% in the range of 210 to 335 kg/ cm².
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