Materials Research Letters (Aug 2023)

Tissue phase affected fracture toughness of nano-columnar TiB2 + z thin films

  • C. Fuger,
  • R. Hahn,
  • A. Hirle,
  • T. Wojcik,
  • P. Kutrowatz,
  • F. Bohrn,
  • O. Hunold,
  • P. Polcik,
  • H. Riedl

DOI
https://doi.org/10.1080/21663831.2023.2204120
Journal volume & issue
Vol. 11, no. 8
pp. 613 – 622

Abstract

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Structural imperfections such as nano-columnar tissue phases constitute a morphological design feature in protective thin films. Especially in the rising group of PVD transition metal diborides, excess Boron is known to form nm-sized B-rich precipitations in-between nano-crystalline domains. Here, we focus on super-stoichiometric TiB2 + z thin films, varying the stoichiometry from TiB2.04 to TiB4.42 (B: 67–82 at.%). The tissue phase fraction and thickness is mainly governed by the B content and corresponding deposition conditions. A decreasing tissue phase width from ≈ 3–1 nm leads to an increasing critical stress intensity factor KIC of ≈ 40%.

Keywords