Litcius/Paper detail

Quality monitoring in additive manufacturing using emission spectroscopy and unsupervised deep learning

Wenjing Ren, Guangrui Wen, Zhifen Zhang, J. Mazumder

2021Materials and Manufacturing Processes65 citationsDOI

Abstract

Widespread adoption of additive manufacturing (AM) is hindered by the low quality and reproducibility of printed parts. In-situ quality monitoring technologies provide early defect detection and correction capability for AM processes and are crucial for part quality assurance. Research on in-situ monitoring and control of AM is exceptionally challenging due to the numerous variations and complex reactions in AM. This study has developed a novel unsupervised recognition model for the quality of parts printed by directed energy deposition (DED). This model consists of a long short-term memory-based autoencoder (LSTM-Autoencoder) and a K-means clustering. The LSTM-Autoencoder automatically extracts features from spectra collected during the DED process, and the K-means clustering model is employed for the deposition quality classification. Experimental verifications are conducted on the quality recognition of Al7075 alloy depositions printed under different conditions by varying the laser power, printing speed, and powder delivery rate. The results show that the proposed method can discern between the unqualified depositions with rough surfaces and high porosity from the qualified depositions correctly. This proposed LSTM-Autoencoder is data-driven and thus may be applied to printing conditions not tested within this work.

Topics & Concepts

AutoencoderCluster analysisArtificial intelligenceMaterials scienceDeep learningQuality assurancePattern recognition (psychology)Quality (philosophy)Computer scienceArtificial neural networkUnsupervised learningSelf-organizing mapDeposition (geology)Process engineeringMachine learningEngineeringEpistemologyPhilosophyPaleontologySedimentExternal quality assessmentOperations managementBiologyAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesIndustrial Vision Systems and Defect Detection