Grain-interior planar defects induced by heteroatom monolayer

Xingwei Liu, Haibin Wang, Hao Lu, Xuemei Liu, Zhi Zhao, Chao Hou, Lin Gu, Xiaoyan Song*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

4 Citations (Scopus)

Abstract

A new type of grain-interior planar defect in a ceramic phase in TiC doped cemented tungsten carbides was discovered. It is unique in that the monolayers of metal atoms exist stably in ceramic grains. The planar defects were induced by the ordered heteroatoms distributing on certain crystal planes of the matrix, which are distinct from the known planar defects such as phase-, grain-, and twin-boundaries, stacking faults, and complexions. Detailed characterization on the atomic scale was performed for the composition, structure, and crystallography of the planar defects, and their energy state and stability were evaluated by modeling. It was found that the Ti monolayer assists nucleation of the new WC crystal along the normal direction to its basal plane. Due to the disturbance of the heteroatom layer, the deposition of W and C atoms deviates from the regular sites occupied in the perfect crystal lattice, resulting in variations of the W–C arrangement in the grain structure. Experiments confirmed that tailoring the distribution density of the planar defects could give the best comprehensive mechanical performance with simultaneously outstanding strength and fracture toughness in the materials containing the grain-interior planar defects. This study provides a new strategy to greatly enhance the mechanical properties of materials by introducing and tailoring planar defects in the grain interiors.

Original languageEnglish
Article number100130
JournalAdvanced Powder Materials
Volume2
Issue number4
DOIs
Publication statusPublished - Oct 2023
Externally publishedYes

Keywords

  • Atomic arrangement
  • Heteroatom monolayer
  • Interface energy
  • Mechanical performance
  • Planar defect

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