Technology Summary
A generative AI system that accelerates alloy development and optimizes material properties in Laser Metal Deposition Additive Manufacturing. This technology integrates generative AI with Laser Metal Deposition Additive Manufacturing (LMD-AM) to efficiently design and validate novel alloy compositions. Leveraging historical and experimental data, it automates the generation, evaluation, and selection of alloy parameters tailored to desired mechanical properties, significantly reducing development cycles and improving material reliability.
Key Advantages
- Rapid prediction and optimization of alloy compositions using AI-driven models
- Significant reduction in experimental testing through data-driven validation
- Automated evaluation streamlining the identification of promising material candidates
- Continuous feedback loops enabling iterative improvements in alloy design
- Scalable integration within existing LMD-AM manufacturing workflows
- Avoids lengthy and costly alloy development cycles
- High resource consumption due to extensive experimental trials
- Improves reliably in achieving target mechanical properties in new alloys
- Increases ability to tailor alloys quickly for emerging industry needs
Market Opportunities
- Aerospace industry for lightweight, high-strength custom alloys
- Automotive sector requiring tailored materials for performance and durability
- Additive manufacturing providers seeking enhanced material design automation
- Advanced materials research institutions focused on novel alloy development
- Industrial manufacturing companies optimizing production efficiency and product quality
Stage of Development
Proof of Concept
Patent Status
Pending
References & Publications
Rahimi, Amirkeyvan, and Yara Almubarak. "Insights into Additively Manufactured Alnico Alloys Using Laser Metal Deposition Technology." Journal of Materials Engineering and Performance 35.2 (2026): 1904-1918.
