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Prediction of concrete abrasion depth and computational design optimization of concrete mixtures

Qiong Liu, Lars Vabbersgaard Andersen, Min Wu

2024Cement and Concrete Composites22 citationsDOIOpen Access PDF

Abstract

The failure of concrete for hydraulic structures due to the excessive abrasion depth has caused great economic losses. Despite the tremendous work that has been done, the durability design of hydraulic concrete structures concerning abrasion damage is still a difficult task, especially with a long service life aiming at economic benefit and environmental sustainability. In this paper, machine learning methodologies including random forests (RFs) and artificial neural networks (ANNs), are used to establish prediction models based on concrete mixture proportions, curing age, and hydraulic conditions. Furthermore, RF models are coupled with multiple objective particle swarm optimization (MOPSO) algorithms to perform computational design optimization of concrete mixtures. The optimal solutions are generated based on 5000 randomly generated mixture proportions, among which three optimal designs of concrete mixtures are selected to guide field applications on account of concrete durability requirements and economic benefits.

Topics & Concepts

DurabilityAbrasion (mechanical)Particle swarm optimizationService lifeArtificial neural networkComputer scienceSustainabilityEnvironmental scienceStructural engineeringCivil engineeringEngineeringReliability engineeringMachine learningMechanical engineeringDatabaseBiologyEcologyInfrastructure Maintenance and MonitoringConcrete and Cement Materials ResearchTunneling and Rock Mechanics
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