This book constitutes the proceedings of the conference Materials Science and Technology of Additive Manufacturing 2019 (MSTAM), which took place from 10th to 11th December 2019 in Bremen, Germany. MSTAM is a cutting-edge forum representing modern technological and material-specific trends and challenges in the field of additive manufacturing. The collected articles addressed powder bed fusion and direct energy deposition processes in metal additive manufacturing.
This book constitutes the proceedings of the conference Materials Science and Technology of Additive Manufacturing 2019 (MSTAM), which took place from 10th to 11th December 2019 in Bremen, Germany. MSTAM is a cutting-edge forum representing modern technological and material-specific trends and challenges in the field of additive manufacturing. The collected articles addressed powder bed fusion and direct energy deposition processes in metal additive manufacturing.
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Illustrations, unspecified
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ISBN-13
978-3-0357-3663-2 (9783035736632)
DOI
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Schweitzer Klassifikation
<ul><li>Preface</li><li>Chapter 1: Development and Qualification of Materials for Additive Manufacturing</li><li>Printing and Laser Curing of Ag and Cu Paste - Prospects and Challenges in Additive Manufacturing</li><li>Comparison of the EHLA and LPBF Process in Context of New Alloy Design Methods for LPBF</li><li>Efficient Qualification Strategy of New Steel Alloys for Laser Powder Bed Fusion</li><li>Chapter 2: Materials and Technology of Powder Bed Fusion</li><li>Adjusted Process Conditions in Laser Powder Bed Fusion to Obtain a Single-Crystal-Like Microstructure in IN718</li><li>Influence of Intrinsic Heat Treatment (IHT) on Precipitation Kinetics during Laser Beam Powder Bed Fusion of Al-Mg-Sc Alloy</li><li>Cellular Automata Analysis of Effects of Substrate Conditions on Microstructure and Texture Evolution during Selected Laser Melting</li><li>DoE Applied to Thermal Analysis and Simulation of Geometrical Stability of a Wind Turbine Blade Made by Selective Laser Melting</li><li>Simulation Aided Process Development with Multi-Spot Strategies in Laser Powder-Bed Fusion</li><li>Chapter 3: Materials and Technology of Direct Energy Deposition</li><li>Microstructural and Mechanical Analysis of High-Performance Parts Produced by Hybrid Additive Manufacturing of Powder LMD on Forged Base Components</li><li>Investigating the Reproducibility of the Wire Arc Additive Manufacturing Process</li><li>Laser Metal Deposition of Fe- and Co-Based Shape-Memory Alloys</li><li>Influence of Machine Parameters on Ti-6Al-4V Small Sized Specimens Made by Laser Metal Powder Deposition</li><li>Chapter 4: Monitoring and Testing of Additive Manufacturing Processes</li><li>Thermal Based Process Monitoring for Laser Powder Bed Fusion (LPBF)</li><li>Challenges and Approaches for Metrology of Additive Manufactured Lattice Structures by Industrial X-Ray Computed Tomography</li><li>A Data Driven Approach to the Online Monitoring of the Additive Manufacturing Process</li></ul>
