With new suppliers and devices entering the market, and a greater range of materials and material suppliers, Laser Additive Manufacturing is one of the highest growth areas within manufacturing globally. The Laser Additive Manufacturing track shines a spotlight on the latest techniques in additive manufacturing—covering technology, digital twins, materials, processes and applications. Don’t miss out!
Session Search
Day | Session | Title | Keywords |
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Monday | DEDAM Process and Materials I | Adaptive Powder Nozzle Setting for Enhanced Efficiency in Laser Metal Deposition |
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Monday | DEDAM Process and Materials I | Process Development and Process Parameter Guidelines for Thin Wall Deposition with IN718 Using Extreme High Speed Laser Material Deposition (EHLA 3D) |
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Monday | DEDAM Process and Materials I | The Melt Pool Dynamics on Different Substrate Materials in High-speed Laser Directed Energy Deposition Process |
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Monday | DEDAM Process and Materials I | Light Valve Technology for Rapid, High Resolution 3D Area Printing |
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Monday | DEDAM Process and Materials II | Tailoring Material Properties of Duplex Stainless Steel by Ded-Lb/M and In-Situ Alloying With Elemental Powders |
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Monday | DEDAM Process and Materials II | In-Situ Process Monitoring of Directed Energy Deposition Powder Flow to Detect Anomalies |
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Monday | DEDAM Process and Materials II | Grain Size Manipulation by Wire Laser Direct Energy Deposition of 316L with Ultrasonic Assistance |
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Monday | DEDAM Process and Materials II | Influence of Post-processing Heat-Treatment on the Mechanical Performance of Aisi 410L Stainless Steel Manufactured by L-Ded Process |
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Monday | DEDAM Process and Materials III | Comparison and Analysis of Hyperspectral Temperature Data in Directed Energy Deposition |
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Monday | DEDAM Process and Materials III | Characterization of Optical Emissions During Laser Metal Deposition for the Implementation of an In-Process Powder Stream Monitoring |
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Monday | DEDAM Process and Materials III | In-Situ Monitoring and Intermittent Controller for Adaptive Trajectory Generation During Laser-Directed Energy Deposition via Powder Feeding |
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Monday | DEDAM Process and Materials III | Monitoring the Degree of Dilution During Directed Energy Deposition of Aluminium Bronze and H13 Tool Steel Using Optical Emission Spectroscopy |
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Tuesday | DEDAM Process and Materials IV | Welding Between Confinements as a New Approach for High Deposition Rate Additive Manufacturing With Laser-Assisted Double Wire Welding With Non-transferred Arc |
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Tuesday | DEDAM Process and Materials IV | Latest Developments in Coaxial Multi-Wire High-Power Laser Cladding |
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Tuesday | DEDAM Process and Materials IV | A Comparison of Wire-Laser and Wire-Arc Directed Energy Deposition Processes |
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Tuesday | DEDAM Process and Materials IV | Manufacturing of Large-Scaled Components by Digital-Assisted Directed Energy Deposition |
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Tuesday | DEDAM Process and Materials V | Laser Cladding (DED); A High-Speed-Imaging Examination of Powder Catchment Efficiency as a Function of Melt Pool Geometry |
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Tuesday | DEDAM Process and Materials V | Development of a Laser Preheating Concept for Directed Energy Deposition |
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Tuesday | DEDAM Process and Materials V | Effects of Holding Temperature during Induction Heating-Assisted Laser-Directed Energy Deposition of Inconel 718 |
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Tuesday | PBFAM Process and Materials I | Development and Assessment of a Methdology for Abstraction of Topology Optimization Results to Enable the Substitution of Optimized Beams |
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