Equipment & Facilities
The University of Delaware’s Center for Composite Materials has been internationally recognized as a center of excellence for interdisciplinary research in the areas of materials and synthesis, multifunctional materials, processing science, mechanics and design, sensing and control, and software.
Palmetto is Clemson University's primary high-performance computing (HPC) resource; heavily utilized by researchers, students, faculty, and staff from a broad range of disciplines. Currently, Palmetto is comprised of 1786 compute nodes (totaling 34916 CPU cores).
The Institute for Materials and Manufacturing Research (IMR) is the gateway to Ohio State's materials-allied research enterprise. The IMR leads an interconnected, interdisciplinary materials research community across Ohio State’s colleges and centers.
Instrumentation for Molecular and Nanoscale Innovation is a center that administers state-of-the-art equipment in four core research facilities: Electron Microscopy Facility, Nanofabrication Central Facility, NanoTools Facility, and the Joint Engineering & Physics Instrument Shop.
The Applied Process Engineering Laboratory (APEL) is center designed for innovators in engineering, manufacturing, and technology. Owned and managed by Energy Northwest, APEL is located just a few blocks south of the Pacific Northwest National Laboratory (PNNL) campus.
Clemson's Advanced Materials Research Laboratory (AMRL) is a state-of- the-art facility that houses internationally recognized research programs in optoelectronics, chemistry and materials science.
Manufacturing at UF focuses on performing state-of-the-art research to produce innovative manufacturing and surface technologies. These technologies enable improved product performance and breakthroughs in water, food production, energy, aerospace, and healthcare.
With one of the largest concentrations of electron and ion beam microscopy instruments in any North American institution, CEMAS brings together multidisciplinary expertise to drive synergy, amplify characterization capabilities, and challenge what is possible in analytical electron microscopy.
Expertise and equipment in the Materials Science and Technology Building is focused on identifying and predicting how materials degrade in extreme environments, particularly before macroscopic damage propagates and leads to the failure of systems, structures, and components.
The AMC creates an open environment for collaborative advanced manufacturing research and development in areas such as process intensification, cyber security, robotics, smart manufacturing, virtual reality and additive manufacturing.
