Thermo-Calc 2025b

 Thermo-Calc 2025b: The Premier Platform for Computational Materials Design

Predict and engineer the materials of the future with Thermo-Calc 2025b, the industry-leading software suite for computational thermodynamics and materials property simulation. This powerful platform enables materials scientists and engineers to calculate phase diagrams, simulate heat treatment processes, and design new alloys with tailored properties, all from a desktop.

 Core Features of Thermo-Calc 2025b

Thermo-Calc 2025b integrates a wide range of specialized modules and databases to provide a complete solution for materials-centric modeling and design.

• Advanced Phase Diagram and Equilibrium Calculations
  Instantly generate complex multi-component phase diagrams. Calculate stable and metastable phase equilibria to understand the phases present in your material at any given temperature and composition, which is fundamental for alloy design and process optimization.

• Scheil-Gulliver Solidification Simulation
  Predict microsegregation and phase formation during casting. Model non-equilibrium solidification to anticipate the formation of detrimental phases, optimize casting parameters, and improve the homogeneity and quality of as-cast materials.

• Precipitation Kinetics Modeling (TC-PRISMA)
  Simulate the nucleation, growth, and coarsening of precipitates. This module is essential for designing the heat treatment schedules of age-hardenable alloys like aluminum, nickel superalloys, and steels to achieve target strength and creep resistance.

• Diffusion-Controlled Phase Transformation (DICTRA)
  Model kinetics in multi-phase systems. Simulate processes like carburizing, nitriding, and homogenization by calculating diffusion-controlled phase transformations over time, providing critical insight for surface engineering and heat treatment.

• Extensive Thermodynamic and Mobility Databases
  Access critically assessed data for thousands of systems. The software includes renowned databases for steels, nickel superalloys, titanium alloys, aluminum, and more, providing the reliable foundation for all calculations.