다중 센서 기반 딥러닝 모델을 이용한 6000계열 알루미늄 합금의 고온 균열 진단

• Published in: 대한용접·접합학회지 Vol. 42; no. 4; pp. 345 - 356
• Main Authors: 김건민(Geonmin Kim), 이재헌(Jaeheon Lee), 이승환(Seung Hwan Lee)
• Format: Journal Article
• Language: Korean
• Published: 대한용접·접합학회 01.08.2024; 대한용접접합학회
• Subjects: 기계공학; Hot cracking; Deep learning; Feature extraction; Genetic algorithm; Laser welding; Aluminum alloy
• ISSN: 2466-2232; 2466-2100

This study developed a monitoring technology using a multi-sensor based deep learning model to diagnose hot cracking in aluminum alloy laser welding. Hot cracking that occurs during the laser welding process of aluminum alloys is difficult to diagnose accurately with a single sensor signal, necessitating multi-sensor based process monitoring technology. To monitor these hot cracks, laser-induced plasma, acoustic, and elastic wave signals were simultaneously measured using a spectrometer, non-contact acoustic sensor, and contact acoustic sensor during the overlap laser welding process of 6000 series aluminum alloys. The welded specimens were classified into normal and cracked specimens through bead analysis, and features related to hot cracking were extracted from each sensor signal to utilize the measured multi-sensor signals for monitoring. The extracted features from each signal were used as inputs for a Deep Neural Network (DNN) model capable of learning complex nonlinear relationships, and the hyperparameters of the DNN model were optimized using a genetic algorithm. The DNN model trained with multi-sensor data diagnosed hot cracking with an accuracy of 93.75%. KCI Citation Count: 0