AI-driven predictive modeling of homogeneous bead geometry for WAAM processes

With the increasing number of applications employing additive manufacturing solutions, these deposition processes must become more autonomous, which can be helped by the application of machine learning monitoring. This study presents a fully online, low-cost framework for real-time quality control i...

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Detalles Bibliográficos
Autores: Fernández Zabalza, Aitor, Rodríguez Díaz, Álvaro, Veiga Suárez, Fernando, Suárez, Alfredo, Uralde Jiménez, Virginia, Ballesteros Egüés, Tomás, Alfaro López, José Ramón
Tipo de recurso: artículo
Estado:Versión publicada
Fecha de publicación:2025
País:España
Institución:Universidad Pública de Navarra
Repositorio:Academica-e. Repositorio Institucional de la Universidad Pública de Navarra
OAI Identifier:oai:academica-e.unavarra.es:2454/54600
Acceso en línea:https://hdl.handle.net/2454/54600
Access Level:acceso abierto
Palabra clave:Wire arc additive manufacturing
Artificial intelligence
Process monitoring
Descripción
Sumario:With the increasing number of applications employing additive manufacturing solutions, these deposition processes must become more autonomous, which can be helped by the application of machine learning monitoring. This study presents a fully online, low-cost framework for real-time quality control in Invar wire-arc additive manufacturing (WAAM). Synchronized current and voltage signals are transformed into spatial heatmaps and temporal Markov transition images, which are processed by an optimized ResNet-18 to classify the quality of each layer on-the-fly. Validation using cross-validation on an internal Invar dataset yields an accuracy of up to 94% under clean conditions, with inference times below 20 ms per layer, enabling deployment during natural cooling between layers. These results demonstrate the feasibility of non-intrusive signal-based anomaly detection, enabling rapid identification of weld spalls and useful for scalable and automated WAAM monitoring in industrial environments.