LightMAT Capabilities

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.

Capability National Lab Description
Additively Manufactured High Performance Carbon Fiber Composites Lawrence Livermore National Laboratory LLNL has developed a capability for additively manufacturing carbon fiber thermoset composites via direct ink writing micro-extrusion technology. LLNL can control fiber placement in 2.5 dimensions...
Alloy Formulation and Processing National Energy Technology Laboratory NETL uses computational methods in alloy design, melting, casting, heat treating and deformation processing. Melt processing methods employed include induction melting (air & vacuum), vacuum arc...
Polymer & Composite Material Development and Additive Manufacturing Oak Ridge National Laboratory ORNL is on the forefront of polymer and composite materials research and additive manufacturing (AM) capabilities. The collaboration with the Institute for Advanced Composites Manufacturing...
Top-down Design and Processing of Light Weight Alloys Lawrence Livermore National Laboratory, Oak Ridge National Laboratory Large volume manufacturing of complex geometry components such as cylinder heads, engine block and turbo charger compressor impellers require castable ligh weight alloys that retain mechanical...
Synthesis, Processing/Manufacturing Capability, and Characterization Expertise in Polymer Sciences Oak Ridge National Laboratory ORNL has extensive capabilities relevant to synthesis of novel polymers, reactive extrusion, molding, and characterization. Synthesis usually is done in small (0.25 L) to bench-scale (2 L) batch...
Transportation and High Volume Composite Materials Manufacturing Oak Ridge National Laboratory ORNL's integrated composite materials manufacturing capability incorporates materials and processing research and development via prototypical parts, components, and system demonstration.
Morphological Analysis and Synthesis of Light Alloy Interior and Surface Structure Idaho National Laboratory Idaho National Laboratory can perform morphological analysis of industrial surfaces, including aluminum, magnesium, and titanium alloys, with the ultimate goal of providing surface representations....
Casting Foundry Aluminum Alloy Design Idaho National Laboratory At a customer's request, Idaho National Laboratory can design novel foundry aluminum alloys that possess excellent castability, molten metal fluidity, resistance to hot solidification cracking,...
Aluminum Alloy Phase Equilibria, Thermodynamic Properties, and Microstructure Idaho National Laboratory Idaho National Laboratory has the required computational tools and expertise (VASP, LAMMPS, GIBBS, PHONON, THERMO-CALC, DICTRA, and PRISMA) that enable designing different aluminum alloy tempers for...
Metalcasting Oak Ridge National Laboratory Casting codes and thermophysical property measurements instruments include:Differential scanning calorimeter (DSC) model for property estimationDual-push-dilatometer for mushy zone density...
Multiscale Process Modeling of Bulk Nanolaminates Los Alamos National Laboratory Computational models at Los Alamos National Laboratory can help guide the design of processing pathways for making stable bulk nanolaminate microstructures with tailored properties. The current model...