论文信息 - A model for the development of microstructure in low-alloy steel (Fe-Mn-Si-C) weld deposits

A model for the development of microstructure in low-alloy steel (Fe-Mn-Si-C) weld deposits

Abstract Experimentally observed microstructural variations in a series of low-alloy steel weld deposits containing different carbon concentrations (produced using experimental electrodes) are discussed in terms of a phenomenological model based on phase transformation theory. The model requires an input of austenite grain size, chemical composition and the cooling curve of the fusion zone; this allows the calculation of isothermal transformation diagrams and quantities necessary to define the start and finish temperatures of various reactions. Allotriomorphic ferrite growth is assumed to occur by a paraequilibrium transformation mechanism; its formation is found to determine the development of both Widmanstatten and acicular ferrite. It seems possible to rationalise the microstructural variations in terms of phase transformation theory, and although the presence of inclusions for the heterogeneous intragranular nucleation of acicular ferrite seems necessary, the inclusions, when present in a concentration beyond a limiting value, do not seem to control the overall development of the microstructure.

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