B&W Technical Services Group, Inc. maintains extensive facilities for analyzing and testing of radioactive materials at the Lynchburg Technology Center (LTC) located in Lynchburg, Virginia.
The Strategic Materials Laboratory (SML) is a radiologically-controlled area where nuclear and non-nuclear materials are processed and evaluated. The laboratory is used to develop and test nuclear fuel and related components as part of the Nuclear Materials & Inspections Systems at the LTC.
Background
For more than 40 years B&W Technical Services, Group, Inc.'s Lynchburg Technology Center (formerly the R&D Division of Babcock & Wilcox) has supported the company's interest in the nuclear industry.
The SML was built for processing, developing, and testing advanced nuclear fuels and its components in the late 80's under the U.S. Air Force Space Nuclear Thermal Propulsion Program. The laboratory supported developing and testing coated particle fuel for advanced particle-bed reactors. Other notable projects include high temperature fuel development for advanced reactors, solar bimodal propulsion, and work on Russian high temperature fuel.
Capabilities
Nuclear and non-nuclear materials can be processed, tested, and characterized in the SML by our staff of metallurgists, ceramists & technicians. We support internal and external customers.
Laboratory test facilities include:
- High-temperature (>3000 C) exposure in inert gas of 100% hydrogen
- Deformation (plasticity)
- Static and dynamic compression
- Bed thermal expansion
- Thermal stability - interaction - compatibility
- Cyclic temperature
- Melt-point determinations
Processing facilities include:
- High temperature induction furnaces
- High temperature graphite furnace
- Hot isostatic pressing
- Cold isostatic pressing
- Chemical vapor desposition / infiltration
- Supercritical fluid infiltration
- Hot Machining
For more information, please contact us.
A hot-press reactor used to fabricate high temperature nuclear fuel and ceramic materials.
An optical micrograph of a polished cross-section of fuel particles showing coatings and center fuel kernel.
A scanning electron micrograph of a coated nuclear fuel particle after a crush test.
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