The LightMAT resource network contains capabilities from the U.S. Department of Energy National Laboratory system. This search function enables you to view and filter these capabilities within LightMAT.
Many of the capabilities listed on this page are user facilities managed by the U.S. Department of Energy's Office of Science. Each user facility has established processes for submitting a proposal and gaining access. Visit http://science.energy.gov/user-facilities/user-resources/getting-started for more information.
|Aberration-corrected Lorentz Transmission Electron Microscope (ALTEM)||Argonne National Laboratory||The ALTEM instrument is dedicated to imaging magnetic fields and magnetic materials in a field-free region, which is critical for magnetic materials. Compared to standard magnetic imaging, aberration...|
|Low-temperature Boriding of Lightweight Engine Materials||Argonne National Laboratory||ANL offers a breakthrough technology that enables boriding of aluminum, magnesium, and titanium alloys that are very thick and operates fast at temperatures of ~200°C using a proprietary molten...|
|Electrolytic Processing||Argonne National Laboratory||Argonne has extensive experience in light metals technology development and molten salt electrolysis. Facilities include: 3-20A, 2-100A, and one 1800A fully equipped molten salt electrolysis cells,...|
|Integrated Computational Materials Engineering||Argonne National Laboratory||Integrated Computational Materials Engineering (ICME) codes are available to model phase formation in multicomponent alloys (Precipicalc), as well as phase-field codes for multicomponent phase...|
|X-ray Characterization of Materials||Argonne National Laboratory||Argonne National Laboratory provides various capabilities for x-ray characterization of materials that includes and array of instrumentation, including:Tomography using 1-ID, 2-BM, or 6-BM beamlines...|
|High-performance Composite Nanomaterials via 3D Nanoprinting||Argonne National Laboratory||We are able to design and manufacture ultra-strong, lightweight composite materials with physical and mechanical properties on demand. The internal structure is designed digitally, according to the...|