Multi-material Capabilities and Process Development in Hybrid Manufacturing UGxhbm5pbmdfMjUxODUwMg== Multi-material Capabilities and Process Development in Hybrid Manufacturing Multi-material Capabilities and Process Development in Hybrid Manufacturing AeroDef Session: A
Navigating the Complexities of Medical Device Manufacturing at the Point of Care UGxhbm5pbmdfMjUxODUwNQ== Navigating the Complexities of Medical Device Manufacturing at the Point of Care Navigating the Complexities of Medical Device Manufacturing at the Point of Care AeroDef
Neo Stereolithography Models for Advanced Aerospace Wind Tunnel Testing UGxhbm5pbmdfMjUxODUxMw== Neo Stereolithography Models for Advanced Aerospace Wind Tunnel Testing Neo Stereolithography Models for Advanced Aerospace Wind Tunnel Testing AeroDef Session:
New Applications for Tooling and Casting Repair Utilizing DED Hybrid Technology UGxhbm5pbmdfMjUxODUwOA== New Applications for Tooling and Casting Repair Utilizing DED Hybrid Technology New Applications for Tooling and Casting Repair Utilizing DED Hybrid Technology AeroDef
New Calibration Method for Laser Powder Bed Systems Enables High-precision Batch Repairs UGxhbm5pbmdfMjUyNjExMg== New Calibration Method for Laser Powder Bed Systems Enables High-precision Batch Repairs New Calibration Method for Laser Powder Bed Systems Enables High-precision Batch
One Printer's Trash, Another's Treasure? Converting Filament Waste into Printable Resin UGxhbm5pbmdfMjUxODQ4MA== One Printer's Trash, Another's Treasure? Converting Filament Waste into Printable Resin One Printer's Trash, Another's Treasure? Converting Filament Waste
Optimization of a 3d-printed Endoprosthetic Sleeve to Enhance Scaffold Efficacy UGxhbm5pbmdfMjUxODUwOQ== Optimization of a 3d-printed Endoprosthetic Sleeve to Enhance Scaffold Efficacy Optimization of a 3d-printed Endoprosthetic Sleeve to Enhance Scaffold Efficacy AeroDef
Optimize Stent Design by Additive Manufacturing: A Biomechanical and Hemodynamic Approach UGxhbm5pbmdfMjUxODQzNA== Optimize Stent Design by Additive Manufacturing: A Biomechanical and Hemodynamic Approach Optimize Stent Design by Additive Manufacturing: A Biomechanical and Hemodynamic
Pilot the Industrialization of am Preforms to Expedite the Forging Process UGxhbm5pbmdfMjUxODUyNg== Pilot the Industrialization of am Preforms to Expedite the Forging Process Pilot the Industrialization of am Preforms to Expedite the Forging Process AeroDef Session: In
Point-of-care Manufacturing: The HAMMER Engineering Research Center Approach UGxhbm5pbmdfMjUxODU2MA== Point-of-care Manufacturing: The HAMMER Engineering Research Center Approach Point-of-care Manufacturing: The HAMMER Engineering Research Center Approach AeroDef Session:
