Adaptive Microstructure-Based Approach for Rapid Qualification by Similarity of Ti-6Al-4V Parts Manufactured by Additive Manufacturing (AM) Techniques
Navy SBIR FY2015.1
Sol No.: |
Navy SBIR FY2015.1 |
Topic No.: |
N151-012 |
Topic Title: |
Adaptive Microstructure-Based Approach for Rapid Qualification by Similarity of Ti-6Al-4V Parts Manufactured by Additive Manufacturing (AM) Techniques |
Proposal No.: |
N151-012-0623 |
Firm: |
MRL Materials Resources LLC 714 E Monument ave
Suite 130
Dayton, Ohio 45402-1382 |
Contact: |
Daniel Satko |
Phone: |
(937) 531-6657 |
Web Site: |
www.icmrl.net |
Abstract: |
Qualification of metallic materials is a crucial, yet arduous, step towards reliable insertion of new materials and processing technologies. This process relies on standardization and comprehensive characterization in order to gain confidence in the reliability of materials performance. Metallic additive manufacturing technologies offer unprecedented flexibility to tailor processing conditions, microstructure, and even chemistry in a location-specific manner, while also enabling previously infeasible optimized geometries. However, this novelty inherently leads to macroscale heterogeneity and uncertainties of location specific properties that make it difficult to use traditional test samples to qualify AM parts or processes. Consequently, MRL proposes a novel approach to qualify parts by inspecting witness samples that uses location specific microstructures to record processing variables by building them in synchronization with the part. The novelty of the technique is in the design of the witness samples to clone the microstructures and properties of critical volumes within the parts (internal or external). |
Benefits: |
Success of the proposed qualification by similarity of AM Ti6Al4V parts will enable wide adoption of the microstructure-based protocol in of AM of aerospace components. This will facilitate drastic cost saving for DoD by optimizing AM process planning, reduce cost of qualification, calibrate and validate AM process modeling tools for fast insertion of AM parts. |
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