Advancements in in-situ monitoring technologies for detecting process-induced defects in the directed energy deposition process: a comprehensive review
Advancements in in-situ monitoring technologies for detecting process-induced defects in the directed energy deposition process: a comprehensive review
Laser-based directed energy deposition for metallic materials (DED-LB/M) is a versatile additive manufacturing (AM) technique that facilitates the deposition of advanced protective coatings, the refurbishment of degraded components, and the fabrication of intricate metallic structures. Despite the technological advancements and potential, the presence of process-induced defects poses significant challenges to the repeatability and stability of the DED-LB/M process, limiting its widespread application, particularly in industries requiring high-quality products. In-situ process monitoring stands out as a key technological intervention, offering the possibility of real-time defect detection to mitigate these challenges. Focusing on the DED-LB/M process, this review provides a comparative analysis of various in-situ monitoring techniques and their effectiveness in identifying process-induced defects. The review categorises different sensing methods based on their sensor data format, utilised data processing techniques, and their ability to detect both surface and internal defects within the fabricated structures. Furthermore, it compares the capabilities of these techniques and offers a critical analysis of their limitations in defect detection. This review concludes by discussing the major challenges that remain in implementing in-situ defect detection in industrial practice and outlines key future directions necessary to overcome them.
defects, directed energy deposition, in-situ monitoring technique
Ansari, Md Jonaet
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Roccisano, Anthony
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Arcondoulis, Elias J. G.
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Schulz, Christiane
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Schläfer, Thomas
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Hall, Colin
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14 September 2025
Ansari, Md Jonaet
ac665ba5-e2b7-4f05-9c96-04a64a8b4ca8
Roccisano, Anthony
b68bd4bd-0598-4a96-993f-95b2c27f9044
Arcondoulis, Elias J. G.
4e0c8bdf-1810-4d4e-b8e8-9ba9ccd6b746
Schulz, Christiane
ecc644fc-812c-4a49-9c0e-8023fa49759e
Schläfer, Thomas
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Hall, Colin
afd120d0-928c-4261-ab2f-002a6636e3f2
Ansari, Md Jonaet, Roccisano, Anthony, Arcondoulis, Elias J. G., Schulz, Christiane, Schläfer, Thomas and Hall, Colin
(2025)
Advancements in in-situ monitoring technologies for detecting process-induced defects in the directed energy deposition process: a comprehensive review.
Materials, 18 (18), [4304].
(doi:10.3390/ma18184304).
Abstract
Laser-based directed energy deposition for metallic materials (DED-LB/M) is a versatile additive manufacturing (AM) technique that facilitates the deposition of advanced protective coatings, the refurbishment of degraded components, and the fabrication of intricate metallic structures. Despite the technological advancements and potential, the presence of process-induced defects poses significant challenges to the repeatability and stability of the DED-LB/M process, limiting its widespread application, particularly in industries requiring high-quality products. In-situ process monitoring stands out as a key technological intervention, offering the possibility of real-time defect detection to mitigate these challenges. Focusing on the DED-LB/M process, this review provides a comparative analysis of various in-situ monitoring techniques and their effectiveness in identifying process-induced defects. The review categorises different sensing methods based on their sensor data format, utilised data processing techniques, and their ability to detect both surface and internal defects within the fabricated structures. Furthermore, it compares the capabilities of these techniques and offers a critical analysis of their limitations in defect detection. This review concludes by discussing the major challenges that remain in implementing in-situ defect detection in industrial practice and outlines key future directions necessary to overcome them.
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materials-18-04304
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Accepted/In Press date: 11 September 2025
Published date: 14 September 2025
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© 2025 by the authors.
Keywords:
defects, directed energy deposition, in-situ monitoring technique
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Local EPrints ID: 506589
URI: http://eprints.soton.ac.uk/id/eprint/506589
PURE UUID: c3688b9a-0a37-4a5b-b09a-07897b488708
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Date deposited: 11 Nov 2025 17:58
Last modified: 12 Nov 2025 03:11
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Author:
Md Jonaet Ansari
Author:
Anthony Roccisano
Author:
Elias J. G. Arcondoulis
Author:
Christiane Schulz
Author:
Thomas Schläfer
Author:
Colin Hall
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