TECHNOLOGY LICENSING OPPORTUNITY: Flash Sinter-Forging Equipment
Energy, Department of · ENERGY, DEPARTMENT OF
This notice is not accepting responses (deadline was May 10, 2026, 8:00 PM EDT).
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- Response deadline
- May 10, 2026, 8:00 PM EDT
- Posted
- Apr 23, 2026
- Solicitation
- S-167589
- Set-aside
- No Set aside used
- Place of performance
- Los Alamos, NM, USA
- Contracting office
- TRIAD - DOE CONTRACTOR · Columbus · OH
- Source
- SAM.gov · updated May 9, 2026
Description
This flash sinter-forging technology from Los Alamos National Laboratory enables manufacturers to produce dense, net- or near-net-shape ceramic components in minutes rather than hours or days, while cutting energy consumption by up to 90% and significantly reducing production costs. By simultaneously applying electric current, heat, and mechanical pressure, the process consolidates shaping, densification, and finishing into a single, compact operation, eliminating much of the costly machining typically required for hard, brittle ceramics. The result is faster throughput, lower capital and operating expenses, smaller equipment footprints, and improved sustainability�while also enabling superior microstructural control and access to advanced or difficult-to-sinter materials. How it Works: The technology works by placing ceramic powder into a specially designed die and then applying three inputs at once: an electric field and current, moderate external heating, and mechanical pressure. As electricity passes directly through the ceramic, it rapidly heats the material from the inside, dramatically accelerating the bonding of particles while keeping overall furnace temperatures lower than conventional methods. At the same time, controlled pressure compresses and shapes the material as it densifies, allowing the part to reach high density while already close to its final geometry. Sensors and software coordinate the electrical, thermal, and mechanical conditions in real time, enabling precise control of the process and material behavior. By integrating electrical activation and forging into a single, tightly controlled step, the system achieves fast densification and shaping that would otherwise require multiple, time-intensive processing stages. Key Advantages: Minutes-long processing: Produces dense ceramic parts far faster than conventional sintering methods. Up to ~90% energy reduction: Direct electrical heating dramatically lowers energy use and operating costs. Near-net shaping: Forms parts during densification, greatly reducing or eliminating costly post-machining. Lower total manufacturing cost: Combines forming, sintering, and finishing into a single streamlined step. Advanced material capability: Enables difficult-to-sinter and next-generation ceramics with controlled microstructures. Compact and scalable: Smaller footprint and lower power requirements support deployment from R&D to industrial production. Market Applications: Semiconductor manufacturing (high-purity ceramic components, fixtures, insulators, wear parts) Aerospace and defense (high-temperature components, protective structures, lightweight ceramic parts) Energy and nuclear (fuel cells, solid-state batteries, nuclear and high-temperature energy ceramics) Medical and dental (implants, prosthetics, precision ceramic components) Industrial and manufacturing (wear-resistant parts, tooling components, structural ceramics) Additive and advanced manufacturing (post-processing of 3D-printed ceramic parts, rapid densification of complex shapes) Development Status: TRL 3 US Patent No. 12,465,971 LA-UR-26-23345 LANL Tech Partnerships: Unlock the Innovative Potential Los Alamos National Laboratory offers a wide range of cutting-edge technologies and capabilities that may provide your company with a competitive edge in the market and unlock the innovative potential that can enhance, refine, and revolutionize your products. LANL�s licensing program focuses on moving inventions developed by our researchers to commercial innovations. Patented and patent pending inventions and copyrighted software are available to existing and start-up companies through exclusive and non-exclusive licensing agreements. For specific discussions, please contact licensing@lanl.gov. Note: This is not a call for external services for the development of this technology. https://www.lanl.gov/engage/collaboration/feynman-center/partner-with-us/licensing-technology m.lanl.gov/tech-search
What similar awards have paid
Real federal awards already on the books in a similar lane — so you can size the opportunity, not guess. This is public history, not a bid price, cost estimate, or prediction that you will win.
Typical award size
$27,731
Middle of the pack for similar past awards
Most similar awards fall between $17,049 and $44,185
Who has won work like this
Public awardees in this lane — useful for competitor scan or teaming ideas, not a ranked list of “best” firms.
- 1MCLAREN AUTOMATION & MACHINE TOOL LLC1 award$81,140
- 2HYDROPAC, LLC1 award$47,873
- 3GOVERNMENT SCIENTIFIC SOURCE INC1 award$33,122
- 4FORMLABS INC.1 award$22,340
- 5ZAIPUT FLOW TECHNOLOGIES LLC1 award$11,038
- 6GRACE INSTRUMENT INDUSTRIES LLC1 award$0
Recent examples
A few of the newest similar awards in our index.
- GOVERNMENT SCIENTIFIC SOURCE INCSep 25, 2025Department of Health and Human Services$33,122Source
- ZAIPUT FLOW TECHNOLOGIES LLCJul 7, 2025Department of Health and Human Services$11,038Source
- FORMLABS INC.May 16, 2025Department of Health and Human Services$22,340Source
- HYDROPAC, LLCMay 8, 2025Department of Health and Human Services$47,873Source
- MCLAREN AUTOMATION & MACHINE TOOL LLCMay 2, 2025Department of Health and Human Services$81,140Source
- GRACE INSTRUMENT INDUSTRIES LLCFeb 27, 2025Department of Energy$15,285Source
Drawn from official USAspending contract records in our index. Always confirm requirements on the SAM.gov notice before you bid.
Intelligence only — not legal advice or a guarantee of award. Always verify requirements on the official SAM.gov notice. Past award amounts are public history, not a suggested bid or prediction. Notice ID 6e66f01d2fd64be3b44dca876aebeb9d.