The Laser Additive Manufacturing (LAM) track is a forum to explore the latest innovations and research in laser-based additive manufacturing (LAM). The Laser Additive Manufacturing track focuses on diverse topics, including laser-based powder bed fusion (PBF-LB), directed energy deposition (DED), and other emerging techniques revolutionizing modern manufacturing processes. From materials science to process optimization, from design innovation to industrial implementation, this track connects researchers, engineers, and industry leaders to exchange insights and share breakthroughs in laser additive manufacturing.
Session Search
Day | Session | Title | Keywords |
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Monday | DED Material | Influence of Heat Treatments on the Mechanical Properties and Microstructure of VDM Alloy 780 Components Manufactured by Laser Metal Deposition |
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Monday | DED Material | Interlayer Free Laser Coating of AISI H11 Tool Steel for H11/Cu Composite Material |
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Monday | DED Material | Metal Additive Manufacturing Using Innovative Polymer-Metal Composite: process analysis and in-situ polymer ablation |
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Monday | DED Material | Investigation and Characterization of a local Remelting Process for the Improvement of Surface Properties resulting from Extreme High-Speed Directed Energy Deposition |
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Monday | DED Process Monitoring | Electrophotographic 3D Printing in Pharmacy and Medical Engineering |
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Monday | DED Process Monitoring | Melt Pool Phenomena of Multi Material Direct Energy Deposition |
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Monday | DED Process Monitoring | A First Step Towards Designing Effective Real-Time Control Systems in Laser Directed Energy Deposition |
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Monday | DED Process Monitoring | Validation of Spatial Accuracy with High Speed Imaging to support In-Situ Flaw Detection for Laser Directed Energy Deposition Processes |
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Monday | DED Process Monitoring | Real-Time Monitoring and Control of the Layer Height in Laser Metal Deposition With Coaxial Wire Feeding Using Optical Coherence Tomography |
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Monday | Industrial Application and Development of DED | Fundamentals of Simultaneous Machining and Coating (SMaC) through Combination of Extreme High-speed Laser Material Deposition (EHLA) and Turning |
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Monday | Industrial Application and Development of DED | Geometry Strategies for the Repair of Cylindrical Gears Teeth Using Laser-Directed Energy Deposition |
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Monday | Industrial Application and Development of DED | An In-depth Comparative Analysis of Wire and Powder Techniques in Laser Cladding and Additive Manufacturing |
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Monday | Industrial Application and Development of DED | Additive Manufacturing of Polyamide 12 Bulk Structures Using Directed Energy Deposition With a Thulium Laser: Effect of Process Conditions on Morphology and Mechanical Performance |
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Tuesday | Beam Shaping in Laser-based Powder Bed Fusion | Increase of Theoretical Build Rate in Powder Bed Fusion Laser Beam of Metal Through Adapted Laser Intensity Distribution |
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Tuesday | Beam Shaping in Laser-based Powder Bed Fusion | Tailored Microstructure in Laser-based Powder Bed Fusion of IN718 Through Novel Beam Shaping Technology and Scanning Strategy |
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Tuesday | Beam Shaping in Laser-based Powder Bed Fusion | Laser Powder Bed Fusion of Pure Copper using Ring-shaped Beam Profiles |
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Tuesday | Beam Shaping in Laser-based Powder Bed Fusion | Spatiotemporal Laser Beam Shaping in Laser Powder Bed Fusion |
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Tuesday | DED Process | Precision in Drop Deposition from Metal Wire in Laser Additive Manufacturing |
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Tuesday | DED Process | Advancing Powder Bed Fusion – Laser Beam Monitoring: Evaluating High-Resolution Optical Tomography Performance with Metallic Benchmark Analysis |
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Tuesday | DED Process | Laser Additive Manufacturing of TI-6AL-4V Alloy at a High-Deposition Rate Using a Rectangular Laser Spot |
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