Interfacial modulus mapping of layered dental ceramics using nanoindentation.
- Author:
Antonios L THEOCHAROPOULOS
1
;
Andrew J BUSHBY
;
Ken MY P'NG
;
Rory M WILSON
;
K Elizabeth TANNER
;
Michael J CATTELL
Author Information
- Publication Type:Original Article
- Keywords: Elastic modulus; Fluorapatite; Zirconia
- MeSH: Ceramics*; Elastic Modulus; Hot Temperature; Methods; Microscopy, Electron, Scanning; Powder Diffraction
- From:The Journal of Advanced Prosthodontics 2016;8(6):479-488
- CountryRepublic of Korea
- Language:English
- Abstract: PURPOSE: The aim of this study was to test the modulus of elasticity (E) across the interfaces of yttria stabilized zirconia (YTZP) / veneer multilayers using nanoindentation. MATERIALS AND METHODS: YTZP core material (KaVo-Everest, Germany) specimens were either coated with a liner (IPS e.max ZirLiner, Ivoclar-Vivadent) (Type-1) or left as-sintered (Type-2) and subsequently veneered with a pressable glass-ceramic (IPS e.max ZirPress, Ivoclar-Vivadent). A 5 µm (nominal tip diameter) spherical indenter was used with a UMIS CSIRO 2000 (ASI, Canberra, Australia) nanoindenter system to test E across the exposed and polished interfaces of both specimen types. The multiple point load – partial unload method was used for E determination. All materials used were characterized using Scanning Electron Microscopy (SEM) and X – ray powder diffraction (XRD). E mappings of the areas tested were produced from the nanoindentation data. RESULTS: A significantly (P<.05) lower E value between Type-1 and Type-2 specimens at a distance of 40 µm in the veneer material was associated with the liner. XRD and SEM characterization of the zirconia sample showed a fine grained bulk tetragonal phase. IPS e-max ZirPress and IPS e-max ZirLiner materials were characterized as amorphous. CONCLUSION: The liner between the YTZP core and the heat pressed veneer may act as a weak link in this dental multilayer due to its significantly (P<.05) lower E. The present study has shown nanoindentation using spherical indentation and the multiple point load - partial unload method to be reliable predictors of E and useful evaluation tools for layered dental ceramic interfaces.
