# Biocompatible Inorganic PVD MeSiON Thin Films (Me = Cr or Zr) Used to Enhance the Bond Strength Between NiCr-Based Metallic Frameworks and Ceramic in Dental Restorations

**Authors:** Mihaela Dinu, Cosmin Mihai Cotrut, Alina Vladescu (Dragomir), Florin Baciu, Anca Constantina Parau, Iulian Pana, Lidia Ruxandra Constantin, Catalin Vitelaru

PMC · DOI: 10.3390/dj13070318 · 2025-07-14

## TL;DR

This paper explores using biocompatible MeSiON thin films to strengthen the bond between metal and ceramic in dental restorations.

## Contribution

The study introduces biocompatible inorganic MeSiON thin films as interlayers to enhance bond strength in dental restorations.

## Key findings

- ZrSiON coatings showed better roughness and adhesion than Cr-based coatings.
- The highest bond strength was achieved with ZrSiON deposited at −200 V due to increased surface roughness and interlocking.
- Modifications in coating stoichiometry and roughness significantly improved ceramic-to-metal adhesion.

## Abstract

Background/Objectives: The increasing demand for aesthetics in dentistry has driven significant advancements in both materials and techniques. The primary cause of ceramic detachment in dental restorations is extensive mechanical stress, which often results in detachment and clinical complications. This study aims to improve the bond strength between NiCr-based metal frameworks and ceramic coatings by introducing biocompatible inorganic MeSiON thin films (Me = Cr or Zr) as interlayers. Methods: MeSiON coatings with a thickness of ~2 μm were deposited on NiCr alloy using cathodic arc evaporation. To tailor the stoichiometry, morphology, and mechanical properties of the coatings, the substrate bias voltage was varied: −50 V, −100 V, −150 V, −200 V. Structural and surface characterization was performed using SEM/EDS, XRD, profilometry, and contact angle analysis. The coating adhesion was evaluated by using standardized scratch testing, while the bond strength was evaluated using a three-point bending test. Results: The NiCr alloy exhibited a dendritic microstructure, and the ceramic layer consisted mainly of quartz, feldspar, kaolin, and ZrO2. ZrSiON coatings showed superior roughness, elemental incorporation, and adhesion compared to Cr-based coatings, these properties being further improved by increasing the substrate bias. The highest bond strength was achieved with a ZrSiON coating deposited at −200 V, a result we attributed to increased surface roughness and mechanical interlocking at the ceramic-metal interface. Conclusions: CrSiON and ZrSiON interlayers enhanced ceramic-to-metal adhesion in NiCr-based dental restorations. The enhancement in bond strength is primarily ascribed to substrate bias-induced modifications in the coating’s stoichiometry, roughness, and adhesion.

## Linked entities

- **Chemicals:** NiCr (PubChem CID 11320920), quartz (PubChem CID 24261), feldspar (PubChem CID 3080680), kaolin (PubChem CID 92024769)

## Full-text entities

- **Chemicals:** kaolin (MESH:D007616), quartz (MESH:D011791), Zr (MESH:D015040), CrSiON (-), ZrO2 (MESH:C028541), Cr (MESH:D002857)

## Figures

18 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12293231/full.md

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Source: https://tomesphere.com/paper/PMC12293231