[1] is the world’s leading and most comprehensive database for critically evaluated phase diagrams and related materials property data for metals, alloys, non-metals, and composites. Integration with MedeA®[2] makes MSI Phase Diagrams an indispensable resource for materials science and engineering.
At-a-Glance
MSI Phase Diagrams offers phase diagrams, thermodynamic properties, and crystallographic data, critically evaluated and reviewed by experts of the Materials Science International Team (MSIT)®. The MSI Phase Diagrams module greatly enhances MedeA’s modeling capabilities for materials discovery, design, and optimization projects.
Key Benefits
MSI Phase Diagrams provides critical intellectual evaluations of all data on constitutional properties, phase equilibria, thermodynamic and crystallographic data. Critical evaluation includes the resolution of contradictory published results, comparing and analyzing conclusions, and interpreting results based on assessing all available knowledge. (MSIT)® evaluation reports discuss and remedy conflicting data and rationalize the choice of the most appropriate data sets. The evaluation reports are authentic publications, peer reviewed under the auspices of the (MSIT)® editorial board. Reliable phase diagrams provide scientists and engineers with basic information of crucial importance for fundamental research and for the development and optimization of materials. The evaluation reports are an ideal source for computer-aided modeling and simulations, and are a repository of reliable validated data.
‘Phase diagrams are the beginning of wisdom - not the end of it.’
Sir William Hume-Rothery
Learn how MSI Phase Diagrams can inform your work and about MedeA capabilities including Databases, Builders, Compute Engines, Property Modules, and Analysis Tools.
[1] | MSI Phase Diagrams is curated and maintained by the Materials Science International Team (MSIT)®, a network of materials scientists and laboratories with considerable experience in materials constitutional science, experimental methods, and computational thermodynamics. |
[2] | MedeA and Materials Design are registered trademarks of Materials Design, Inc. |
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