The effect of the substitution of Silicon by Aluminum on the properties of lamellar graphite iron

Effect of the Type of Inoculant on the Shrinkage Porosity of High Silicon SG Iron

Correction to: 90 years of thermal analysis as a control tool in the melting of cast iron

Nodule Count, End of Solidification Cooling Rate, and Shrinkage Porosity Correlations in High Silicon Spheroidal Graphite Iron

Study of Graphite Nucleation in High Sulfur Ductile Irons

Hopper-skeletal and hemispherical crystallization of graphite in iron–carbon–silicon alloys

90 years of thermal analysis as a control tool in the melting of cast iron

Effect of antimony on the nucleation process of spheroidal graphite iron

Reply to Comment on Stefanescu, D.M.; Alonso, G.; Suarez, R. Recent Developments in Understanding Nucleation and Crystallization of Spheroidal Graphite in Iron-Carbon-Silicon Alloys. Metals 2020, 10, 221

Graphite Nucleation in Compacted Graphite Cast Iron

junio 29, 2021

The effect of the substitution of Silicon by Aluminum on the properties of lamellar graphite iron

Effect of the Type of Inoculant on the Shrinkage Porosity of High Silicon SG Iron

Correction to: 90 years of thermal analysis as a control tool in the melting of cast iron

marzo 30, 2022

Nodule Count, End of Solidification Cooling Rate, and Shrinkage Porosity Correlations in High Silicon Spheroidal Graphite Iron

Study of Graphite Nucleation in High Sulfur Ductile Irons

Hopper-skeletal and hemispherical crystallization of graphite in iron–carbon–silicon alloys

90 years of thermal analysis as a control tool in the melting of cast iron

Effect of antimony on the nucleation process of spheroidal graphite iron

Reply to Comment on Stefanescu, D.M.; Alonso, G.; Suarez, R. Recent Developments in Understanding Nucleation and Crystallization of Spheroidal Graphite in Iron-Carbon-Silicon Alloys. Metals 2020, 10, 221

Graphite Nucleation in Compacted Graphite Cast Iron

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