Thomas Feldhausen R&D Staff Contact FELDHAUSENTA@ORNL.GOV All Publications Mechanical systems and kinematics Toolpath considerations for 5-axis systems... Closing the Loop The g-code file... 4. Geometry Data Storage 8. Open-Loop Toolpath Generation... 6. Closed-Loop Toolpath Generation... 10. Path Modifiers 1. Introduction to Additive Manufacturing 7. Space-Filling Toolpath Generation... 5. Cross-Sectioning 9. Support, Raft, Brim, and Skirt Pathing 3. Motion Platforms and Kinematic Arrangements Investigation of Form-and-Print processing of wrought aluminum alloys for industrial applications Neural network-based single material beam-hardening correction for X-ray CT in Additive Manufacturing Local Modification of Cast Aluminum Alloys via the Cast-and-Print Process... Effect of Blown Powder Directed Energy Deposition Angle On Overspray Contamination Data-Driven Approaches for Bead Geometry Prediction Via Melt Pool Monitoring... IN-SITU MONITORING ASSISTED LARGE-SCALE ADDITIVE MANUFACTURING OF MILD STEEL AND 316L ALLOYS FOR NUCLEAR APPLICATION Downselection and Basic Properties of Additively Manufactured ODS Alloys Operando neutron diffraction reveals mechanisms for controlled strain evolution in 3D printing LEVERAGING ADDITIVE MANUFACTURING TO FABRICATE HIGH TEMPERATURE ALLOYS WITH CO-DESIGNED MECHANICAL PROPERTIES AND ENVIRONMENTAL RESISTANCE OPERATOR 4.0 FOR HYBRID MANUFACTURING High throughput structure–property relationship for additively manufactured 316L/IN625 alloy mixtures leveraging 2-step Bayesian estimation Validating the Use of Gaussian Process Regression for Adaptive Mapping of Residual Stress Fields Pagination First page « First Previous page ‹â¶Ä¹ Page 1 Current page 2 Page 3 … Next page ›â¶Äº Last page Last » Key Links Curriculum Vitae Convergent Manufacturing at ORNL Organizations Energy Science and Technology Directorate Manufacturing Science Division Precision Manufacturing and Manufacturing Innovation Disruptive Manufacturing Systems Development User Facilities Manufacturing Demonstration Facility
