Part I The fundamentals of additive manufacturing modeling 1. An introduction to additive manufacturing processes and their modeling challenges Michael Fielding Gouge, Pan Michaleris 2. The Finite Element Method for the Thermo-Mechanical Modeling of Additive Manufacturing Processes Erik Denlinger, Jeff Irwin, Michael Fielding Gouge
Part II Thermomechanical modeling of Direct Energy Deposition processes 3. Convection Boundary Losses During Laser Cladding Michael Fielding Gouge 4. Conduction Losses due to Part Fixturing During Laser Cladding Michael Fielding Gouge 5. Microstructure and Material Properties of AM Builds Allison Michelle Beese 6. Understanding microstructure evolution during additive manufacturing of metallic alloys using phase-field modeling Yanzhou Ji, Lei Chen, Long-Qing Chen 7. Modeling Microstructure and Material Properties of AM Processes Using the FE Method Jeff Irwin 8. Thermo-mechanical Modeling of Thin Wall Builds Using the Direct Process Jarred Heigel 9. Residual Stress and Distortion Modeling of Electron Beam Direct Manufacturing Ti-6Al-4V Erik Denlinger 10. Thermo-mechanical Modeling of Large Electron Beam Builds Erik Denlinger 11. Mitigation of Distortion in Large Additive Manufacturing Parts Erik Denlinger
Part III Thermomechanical modeling of powder bed processes 12. Development and Numerical Verification of an Adaptive Mesh Coarsening Strategy for Simulating Laser Powder Bed Fusion Processes Erik Denlinge 13. Experimental Validation for In Situ Distortion Modeling of the Laser Powder Bed Fusion Process Erik Denlinger 14. Scan Pattern Effects in Laser Powder Bed Fusion Processes: In Situ Measurements and Experimental Validation Alexander Dunbar 15. Experimental Validation of Multi-scale Thermo-mechanical Modeling of Laser Powder Bed Fusion Processe Jeff Irwin, Michael Fielding Gouge