Understanding materials needed requires examining multiple perspectives and considerations. Additive Manufacturing of Advanced Materials | NIST. Cementitious Materials Our team studies cementitious materials to develop measurement science tools and standards for additive manufacturing. NIST studies cementitious materials for additive manufacturing, like the 3D printed cement structure pictured above. From another angle, materials Genome Initiative (federal government wide) NIST MGI Standard Reference Materials Plastics, carbon nanotubes, high-strength alloys, artificial bone and joint replacements are just some of the emerging materials for which NIST develops testbeds, defines benchmarks, and develops formability measurements and models. It's important to note that, rare Crystal Shape Found to Increase the Strength of 3D-Printed Metal. NIST researchers have found special atomic patterns called quasicrystals in 3D-printed aluminum alloys.
In this context, quasicrystals increase the strength of 3D-printed aluminum, the researchers discovered, making it possible to use in lightweight, high-strength objects such as airplane parts. Once thought impossible, quasicrystals were originally discovered at NIST, leading to a 2011 Nobel Prize in Chemistry. Similarly, materials Genome Initiative | NIST. From another angle, materials by Design the Materials Genome Initiative at NIST The 2021 MGI Strategic Plan The Materials Genome Initiative marks its first decade with a new strategic plan. Read the summary, or get the full report (PDF).
The missions of the Materials Genome Initiative and National Institute of Standards and Technology (NIST) are tightly aligned. It's important to note that, sRM NIST Standard Reference Materials Catalog January 2025. SRM Catalog listing all SRMs for sale Advanced Materials NIST Additive Manufacturing researches advanced materials, such as biomaterials, composites, and metamaterials. Equally important, nIST studies advanced materials for additive manufacturing, such as biomaterials and composites, like the prosthetics pictured above.
NISTβs Curved Neutron Beams Could Deliver Benefits Straight to Industry. Scientists from NIST and other institutions have created the first neutron βAiry beam,β which has unusual capabilities that ordinary neutron beams do not. This achievement could enhance neutron-based techniques for investigating the properties of materials that are difficult to explore by other means. For example, the beams can probe characteristics of molecules such as chirality, which is ...
Reference Materials | NIST. The Materials Measurement Science Division is actively developing new Standard Reference Materials (SRMs) for various materials measurement techniques. For reference, we also list SRM products that have been discontinued. Applied Materials | NIST. Equally important, applied Materials will work with university partners to provide internships and graduate research opportunities for graduate, undergraduate, and training in community colleges for students in advanced packaging, chiplet integration in fabrication facilities, and chiplet/substrate design.
Materials by Design | NIST. The team then contributed data to the developing materials-innovation infrastructure, making it easier for anyone to design new coinage materials in the future. βOne of the big goals for the MGI is to make materials data more accessible and reusable,β says Campbell.
βI believe ours are the first computationally designed coinage materials.β
π Summary
Understanding materials needed is essential for anyone interested in this field. The insights shared throughout serves as a strong starting point for ongoing development.