About calphad.com

Calphad.com is the trusted knowledge hub for the global metallurgical and materials community, dedicated to advancing the understanding and application of computational methods.

Our mission is to gather, curate, create, and share high-quality resources that accelerate the understanding and application of computational methods in metallurgy and materials science.

Initially, the site concentrated on the CALPHAD (CALculation of PHAse Diagrams) methodology, which provides a robust framework for predicting phase equilibria and informing alloy development. Over time, our scope expanded to include the full spectrum of computational materials science and engineering, from fundamental thermodynamics and thermochemistry to advanced machine learning-driven alloy design approaches.

Here, you’ll discover a comprehensive suite of resources, including:

• Curated collections of open access literature and research: Gain access to essential publications and seminal works in the field.
• Case studies demonstrating theory in action: Explore real-world applications and practical examples of computational materials science concepts.
• Software resources encompassing commercial and open source tools: Leverage a variety of computational tools to advance your research and development efforts.
• Original articles providing insightful analysis and: Stay updated with the latest trends and best practices in computational materials science and engineering.

Whether you are exploring phase-diagram predictions, calculating thermodynamic properties, simulating solidification processes, designing novel alloys, or optimizing materials processes, calphad.com provides the essential information to empower your research and development efforts.

Sharing knowledge is crucial for accelerating innovation within materials science and engineering. By integrating real-world examples, advanced computational modeling, and cutting-edge data-driven design, the goal is to drive the next generation of materials science breakthroughs and empower researchers, engineers, and developers to make lasting impacts.