The results of phase equilibrium, paraequilibeium calculations are archived here.
- Fe-1.02C-0.13Si-0.19Mn wt%, H. K. D. H. Bhadeshia
- Fe-13Mn-1C wt%, Hadfield steel, H. K. D. H. Bhadeshia
- Fe-Cr-0.05C wt%, 973 K, Cr from 0-35 wt%, H. K. D. H. Bhadeshia
- Fe-7.4Cr-1.8Ni wt%, H. K. D. H. Bhadeshia
- Fe-V-C, α, γ and V4C3, spreadsheet, spreadsheet2, PDF, PDF2 by Shaumik Lenka
- Fe-Ti-C, α and cementite H. K. D. H. Bhadeshia
- Fe-0.4N wt%, α\(α+γ) H. K. D. H. Bhadeshia and M. Peet
- Fe-0.4N wt%, α\(α+Fe4N) H. K. D. H. Bhadeshia and M. Peet
- Fe-0.04C wt%, α\(α+γ) H. K. D. H. Bhadeshia and M. Peet
- Fe-0.04C wt%, α\(α+θ) H. K. D. H. Bhadeshia and M. Peet
- Fe-9.8Ni-6Cu-0.24Nb-0.04C wt%, You Young Song
- One form of superbainite wt%, H. K. D. H. Bhadeshia
- Fe-2Mn-0.8C wt%, A. Pandit
- Fe-0.8C wt%, A. Pandit
- Carburised case of M50_NiL, H. K. D. H. Bhadeshia
- Fe-0.8C-1.6Si-2Mn-1Cr-0.24Mo-3.9Co-1.4Al wt% equilibrium
by Hala Salman Hasan and Mathew Peet
- Fe-Mn-Ni-C
- Fe-0.1313C-2.275Mn-4.033Ni, γ
- Fe-0.1313C-2.275Mn-4.033Ni, α
- Fe-0.125C-2.27Mn-5.02Ni, γ
- Fe-0.125C-2.27Mn-5.02Ni, α
- Fe-0.202C-2.50Mn-6.74Ni, γ
- Fe-0.202C-2.50Mn-6.74Ni, α
- Fe-0.1313C-2.275Mn-4.033Ni, γ+α equilibrium
- Fe-0.125C-2.27Mn-5.02Ni, γ+α equilibrium
- Fe-0.202C-2.50Mn-6.74Ni, γ+α equilibrium
- Fe-0.1313C-2.275Mn-4.033Ni, γ+α paraequilibrium
- Fe-0.125C-2.27Mn-5.02Ni, γ+α paraequilibrium
- Fe-0.202C-2.50Mn-6.74Ni, γ+α paraequilibrium
by Guo Lei
- Fe-Si-C, cementite-γ equilibrium by Mathew Peet
- Fe-0.24C-1.37Mn-0.52Mo-0.5Ni-0.23Si by Sourabh Chatterjee
- Fe-Mn-Si-C and Fe-Mn-Si-C-Ti-Nb-V by Guo Lei and Lan Huifang
- High-nickel, ferritic weld metals
- Fe-Cr-Mo-C
- Power plant steel
- Power plant steel 2
- Paraequilibrium
- Paraequilibrium, hypereutectoid steel
- Script for paraequilibrium (Ashwin Pandit)
- Fe-C-Mn
- Fe-0.4C-30Ni wt%
