Materials (Jun 2023)

The Effect of Boron (B) and Copper (Cu) on the Microstructure and Graphite Morphology of Spheroidal Graphite Cast Iron

  • Jin-Su Ha,
  • Ji-Woo Hong,
  • Ji-Wook Kim,
  • Soo-Bin Han,
  • Chang-Young Choi,
  • Hye-Jin Song,
  • Jin-Seok Jang,
  • Dong-Yul Kim,
  • Dae-Cheol Ko,
  • Seong-Hoon Yi,
  • Yong-Jae Cho

DOI
https://doi.org/10.3390/ma16124225
Journal volume & issue
Vol. 16, no. 12
p. 4225

Abstract

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This study examines the impacts of copper and boron in parts per million (ppm) on the microstructure and mechanical properties of spheroidal graphite cast iron (SCI). Boron’s inclusion increases the ferrite content whereas copper augments the stability of pearlite. The interaction between the two significantly influences the ferrite content. Differential scanning calorimetry (DSC) analysis indicates that boron alters the enthalpy change of the α + Fe3C → γ conversion and the α → γ conversion. Scanning electron microscope (SEM) analysis confirms the locations of copper and boron. Mechanical property assessments using a universal testing machine show that the inclusion of boron and copper decreases the tensile strength and yield strength of SCI, but simultaneously enhances elongation. Additionally, in SCI production, the utilization of copper-bearing scrap and trace amounts of boron-containing scrap metal, especially in the casting of ferritic nodular cast iron, offers potential for resource recycling. This highlights the importance of resource conservation and recycling in advancing sustainable manufacturing practices. These findings provide critical insights into the effects of boron and copper on SCI’s behavior, contributing to the design and development of high-performance SCI materials.

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