Materials & Design (Nov 2024)

Effect of B4C nanoparticles addition on the refinement of Fe-rich phase in ZL108 alloy

  • Wenhao Wang,
  • RongFu Xu,
  • Lixin Xiang,
  • Yuxiu Han,
  • Enfa Li,
  • Shuhao Zhang,
  • Hongliang Zheng

Journal volume & issue
Vol. 247
p. 113424

Abstract

Read online

Refining effect of B4C nanoparticles in ZL108 alloy on Fe-rich phase was studied in this work. It was observed that B4C nanoparticles apparently refines the size of the Fe-rich phases and partially transforms Fe-rich phases morphology from hollow polyhedron to petal-like shape. The DSC results show that B4C nanoparticles does not affect the initial nucleation temperature of the Fe-rich phase. However, the addition of B4C nanoparticles to ZL108 alloy inhibits the growth of Fe-rich phase. The TEM results confirm that the addition of B4C nanoparticles alters the lattice parameter of Fe-rich phase due to incorporation of C atoms, thereby suppressing the growth of the Fe-rich phase and ultimately leading to its refinement. From the perspective of fracture behavior, the addition of B4C nanoparticles remarkably reduces the stress concentration of Fe-rich phase, and the elongation of the alloy increases by 25.3%. These findings provide a new perspective for further research and development to refine Fe-rich phase.

Keywords