Materials Research Express (Jan 2024)

Enhancing mechanical properties of lanthanide zirconates through the cold sintering assisted sintering process

  • Brianda Cruz-Sánchez,
  • Juan C Díaz-Guillén,
  • Hector M Hdz-García,
  • Pedro Perez-Cortes,
  • Antonio F Fuentes

DOI
https://doi.org/10.1088/2053-1591/ad6d32
Journal volume & issue
Vol. 11, no. 8
p. 085507

Abstract

Read online

This study evaluates the impact of incorporating varying contents (10–40 wt%) and molar concentrations (0.001–1 M) of citric acid solutions, as transient liquid phases in the Cold Sintering Assisted Sintering (CSAS) process of dysprosium zirconate (Dy _2 Zr _2 O _7 ). CSAS processed samples achieved relative densities up to 98% of the theoretical maximum and significantly increased Vickers microhardness by over 2.5 times, compared to the traditional ‘press and fired’ sintering method. The Dy _2 Zr _2 O _7 crystal structure remained consistent with the fluorite-type, with no secondary phases detected. Our findings underscore the benefits of using CSAS to enhance the mechanical strength of Dy _2 Zr _2 O _7 , while reducing the lengthy processing times at very high temperatures typically required for sintering refractory materials such as lanthanide zirconates.

Keywords