Innovative Process Models for Additive Manufacturing of 4340 Steel Components via Wire-Fed Electron Beam
Navy STTR FY2015.A
Sol No.: |
Navy STTR FY2015.A |
Topic No.: |
N15A-T007 |
Topic Title: |
Innovative Process Models for Additive Manufacturing of 4340 Steel Components via Wire-Fed Electron Beam |
Proposal No.: |
N15A-007-0212 |
Firm: |
Mainstream Engineering Corporation 200 Yellow Place
Pines Industrial Center
Rockledge, Florida 32955 |
Contact: |
Justin Hill |
Phone: |
(321) 631-3550 |
Web Site: |
http://www.mainstream-engr.com |
Abstract: |
Despite recent advances in Ebeam additive manufacturing, the parts produces by such processes often are inferior to those produced by traditional machining methods. Due to the complexity of the process and the multiple physical phenomena that interact, it is difficult to predict and control the properties and underlying microstructure of the resulting component. In addition, the rapid and repeated thermal cycling can induce multiple solid state phase transformations within certain layers, leading to possible inhomogeneity. Mainstream has already developed custom software to model electron beam processes using multi-physics finite element models. In the Phase I, Mainstream will continue to develop this technology to allow for prediction and control of the underlying microstructure and physical properties. Mainstream and the University of Alabama will validate the software models using experimental data obtained from an Ebeam facility owned by NASA as well as Mainstream's new on-site superconducting Ebeam facility. In the Phase I Option, Mainstream will design the control system and wire feed system to prepare the facility for component fabrication in Phase II. |
Benefits: |
An Ebeam with integrated software for additive manufacturing would enable rapid prototyping and fabrication of components that would require less time, less material, and produce less waste than traditional techniques. Potential applications include production of aerospace components, part repair, 3D printing, and automotive part fabrication. |
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