Investigation of the tensile properties of continuous steel wire-reinforced gray cast iron composite

► Metal matrix composite (MMC) is an important structural material. ► Gray cast irons as a matrix material in MMC have more advantages than other cast irons. ► Interface greatly determines the mechanical properties of MMC. ► Interface formed by diffusion of carbon atoms. ► While decarburizing takes place in gray cast iron, carburişzing takes place in steel near the interface. The aim of the present study was to improve the tensile properties of gray cast iron by reinforcing the material with a steel wire. The composite was produced by sand mold casting, and the specimens were normalized by applying heat treatments at 800 °C, 850 °C, and 900 °C. Tension tests were conducted on gray cast iron and composite specimens, and the microstructure of the specimens was examined with an optical microscope. The fracture surface of the tension test specimens was examined with a scanning electron microscope (SEM), and graphite-free transition regions with high degrees of hardness were observed due to the diffusion of carbon from the cast iron to the steel wire. The microstructure of the transition region (fine pearlitic phase with partially dissolved graphite flakes) and the bond quality in the transition region increased the tensile properties of cast iron composites. Also, it is concluded that the tensile properties of gray cast iron increased with an increase in the normalization temperature.