Mohamed Ahmed Taha Hanafi scite author profile

Phases’ evolution during the solidification of a hypoeutectic 3.92% C-equivalence cast iron was modelled by considering the cooling history of the alloy from the melt, thus including both solidification and solid state transformations. Simple Fourier model was used to combine macroscopic heat flow and microscopic kinetics for phase evolution. Different cooling rates were obtained by casting cylinders and stepped plates. Measured number of primary austenitic nuclei, eutectic cells and volume fraction of phases during solidification (graphite, a-ferrite, pearlite and cementite), are correlated with the cooling rate. Growth rate constants for primary austenite, are found to be  = 8.7E-7, and n = 2.3. Growth rate constants for primary graphite (types A, B, and C), are found to be  =5.7E-7, and n = 2. The model matches with the experimental work where the error percent of modelling volume fractions of pearlite, graphite, ferrite and cementite ranges between 0.2 and 1.5%.

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Tungsten-Reinforced Niobium Intermetallic Composites: Fabrication and Interface Reaction

Mahallawy

Hanafi

Gokhale³

et al. 1993

KEM

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Cold Compaction of Al-Zn Powder Composite Materials

El-Khair¹,

Hanafi

El‐Mahallawy³

et al. 1993

KEM

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