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- Materials Data Resources | NIST
Materials Resource Registry allows for the registration of materials resources, bridging the gap between existing resources, software and repositories and end users
- Standard Reference Materials | NIST
NIST supports accurate and compatible measurements by certifying and providing over 1200 Standard Reference Materials® with well-characterized composition or properties, or both
- Materials Data Repository | NIST
Materials Data Repository Summary The NIST Materials Data Repository is open to the research community interested in developing best practices in the management of materials data We are currently looking into use cases for expansion of the site including, but not limited to, partnerships with other projects focusing on discoverability
- Materials | NIST
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
- Additive Manufacturing of Advanced Materials | NIST
Cementitious Materials Our team studies cementitious materials to develop measurement science tools and standards for additive manufacturing Learn more NIST studies cementitious materials for additive manufacturing, like the 3D printed cement structure pictured above
- 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 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
- 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
- Nanomaterials | NIST
Atomistic simulations are increasingly being used as a tool to understand and predict properties of materials in systems, such as nanomaterials, where direct measurement is time-consuming or extremely difficult
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