Tuning Structure and Mechanical Properties of Ta-C Coatings by N-alloying and Vacancy Population

Overview

Journal Sci Rep

Specialty Science

Date 2018 Dec 7

PMID 30518957

Authors

T Glechner

P H Mayrhofer

D Holec

S Fritze

E Lewin

V Paneta

D Primetzhofer

S Kolozsvari

H Riedl

Affiliations

Soon will be listed here.

Abstract

Tailoring mechanical properties of transition metal carbides by substituting carbon with nitrogen atoms is a highly interesting approach, as thereby the bonding state changes towards a more metallic like character and thus ductility can be increased. Based on ab initio calculations we could prove experimentally, that up to a nitrogen content of about 68% on the non-metallic sublattice, Ta-C-N crystals prevail a face centered cubic structure for sputter deposited thin films. The cubic structure is partly stabilized by non-metallic as well as Ta vacancies - the latter are decisive for nitrogen rich compositions. With increasing nitrogen content, the originally super-hard fcc-TaC thin films soften from 40 GPa to 26 GPa for TaCN, accompanied by a decrease of the indentation modulus. With increasing nitrogen on the non-metallic sublattice (hence, decreasing C) the damage tolerance of Ta-C based coatings increases, when characterized after the Pugh and Pettifor criteria. Consequently, varying the non-metallic sublattice population allows for an effective tuning and designing of intrinsic coating properties.

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