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Experimental Study of High Temperature Phase Equilibria in the Iron-Rich Part of the Fe-P and Fe-C-P Systems

Michael Bernhard, Peter Presoly, Nora Fuchs, Christian Bernhard, Youn‐Bae Kang

2020Metallurgical and Materials Transactions A32 citationsDOIOpen Access PDF

Abstract

Abstract During the solidification of steel, phosphorus strongly segregates in the interdendritic liquid phase. In the continuous casting process, even low levels of P may have a detrimental effect on the final product quality. However, phosphorus is partly added up to 0.10 wt pct to improve the mechanical properties of advanced steel grades nowadays, e.g., High-Strength Interstitial-Free (HSIF). To provide new experimental data for the development of thermodynamic databases and solidification models for P alloyed steel grades, phase equilibria in the Fe-P and Fe-C-P key systems were studied up to 1550 °C using differential scanning calorimetry (DSC) and high temperature laser scanning confocal microscopy (HT-LSCM). Special focus was placed on solid/liquid equilibrium temperatures in the Fe-rich part of the binary Fe-P system between 0.025 and 9 wt pct P. In the ternary system, three isoplethal sections with 0.10 mass pct. P, 0.20 mass pct. C and constant mass percent ratio P/C of 2 were investigated. In the latter section, HT-LSCM observations were linked with DSC signals to optically identify present phase stabilities. Particularly at [pct P] < 1, significant differences between performed measurements and calculated phase equilibrium temperatures using thermodynamic assessments from the literature were identified. In all ternary sections, the experiments indicate less influence of P on the hypo-peritectic range compared to the thermodynamic calculations.

Topics & Concepts

Ternary operationDifferential scanning calorimetryPhase (matter)Materials scienceContinuous castingThermodynamicsCastingAnalytical Chemistry (journal)MetallurgyChemistryChromatographyComputer scienceProgramming languageOrganic chemistryPhysicsMetallurgical Processes and ThermodynamicsMicrostructure and Mechanical Properties of SteelsSolidification and crystal growth phenomena
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