Tissue phase affected fracture toughness of nano-columnar TiB <sub>2 + z</sub> thin films
C. Fuger, Rainer Hahn, A. Hirle, Tomasz Wójcik, Philip Kutrowatz, Fabian Bohrn, O. Hunold, P. Polcik, H. Riedl
Abstract
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%.