Materials Research Letters (Jul 2025)

Superior plastic flow stability of self-patterned carbide – amorphous ceramic nanostructures

  • Wenqian Wu,
  • Lin Shao,
  • Nan Li,
  • Lin Li,
  • Jian Wang

DOI
https://doi.org/10.1080/21663831.2025.2507314
Journal volume & issue
Vol. 13, no. 7
pp. 719 – 728

Abstract

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Amorphous ceramics and carbides exhibit superb strength but poor plasticity. Here, we synthesized TiC-SiOC nanostructures with TiC-nanocarbides embedded in amorphous ceramic SiOC by co-sputtering followed by high-temperature annealing and/or irradiation. TiC-SiOC nanostructures exhibit high strength and good plastic flow stability even after heavy irradiation, 7 GPa at room temperature and 3.6 GPa at 700 ℃ with a uniform strain of about 10%∼18%. The uniform deformation is accommodated by the shearing of amorphous ceramic and the rotation of nanocarbides. Nanocarbides inhibit the propagation of shear banding in amorphous SiOC, and amorphous-crystal interfaces act as sinks to manage irradiation-induced defects.

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