Space computer models for phase diagrams of ternary & quaternary systems to design material microstructure after verification of data interpretation
Vasily
Lutsyk1; Vera
Vorob'eva1; Anna
Zelenaya1; Maria
Parfenova1;
1INSTITUTE OF PHYSICAL MATERIALS SCIENCE SB RAS, Ulan-Ude, Russian Federation;
Type of Paper: Keynote
Id Paper: 317
Topic: 6Abstract:
The assembled 3D and 4D computer models of T-x-y and T-x-y-z diagrams permit to verify and validate the data on phase equilibria and to design the microstructures of heterogeneous material, including the materials genome decoding. “Phase Diagram (PD) as a Tool of Materials Science”, http://ipms.bscnet.ru/labs/skkm.html , is focused on the following topics: concentration fields of different dimension with the different solidification schemes and microstructures, correction of PD graphics, multi-component systems polyhedration, 3- and 4-phase regions with the reaction type changing, competition of crystals with different dispersion in the invariant regrouping of masses, mathematical approximation of PD, assembling of PD computer models, 3D prototyping of the phase regions and concentration simplexes for the exploded PD and for the concentration complexes of the reciprocal quaternary systems, simulation of DTA spectra and X-ray analysis spectra in the training programs for specialists in the field of physics-chemical analysis. Computer models of PD are the wonderful addition for the thermodynamicaly assessed experimental PD.
This work was been performed under the program of fundamental research SB RAS (project 0270-2021-0002).
Keywords:
Phase Diagrams; Computer Simulation, 3D prototyping
References:
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Click here to access the Full TextCite this article as:
Lutsyk V, Vorob'eva V, Zelenaya A, Parfenova M. (2022).
Space computer models for phase diagrams of ternary & quaternary systems to design material microstructure after verification of data interpretation.
In F. Kongoli, J. Antrekowitsch, T. Okura, Z. Wang, L. Liu, L. Guo, J. Ripke, E. Souza.
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