Litcius/Paper detail

Bio-inspired nacre-like zirconia/PMMA composites for chairside CAD/CAM dental restorations

Huijun Sun, Parinaz Tabrizian, Aqsa Qambrani, Urangua Jargalsaikhan, Tan Sui, Tony Ireland, Bo Su

2023Dental Materials27 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: To introduce a versatile fabrication process to fabricate zirconia/PMMA composites for chairside CAD/CAM dental restorations. These zirconia composites have nacre-like lamellar microstructures, competent and tooth-matched mechanical properties, as well as crack resistance behaviours. METHODS: Bi-directional freeze casting was used to fabricate ceramic green bodies with highly aligned lamellar structure. Pressure was then applied to control the ceramic volume fraction. PMMA was infiltrated into the ceramic scaffold. Mechanical tests including 3-point bending, Vickers hardness, and fracture toughness were performed on the composites. The machinability of the composites was also characterised. RESULTS: Two types of nacre-like zirconia/PMMA composites, i.e., 3Y-YZP/PMMA and 5Y-PSZ/PMMA composites were fabricated. The microstructure created was similar to the 'brick and mortar' structure of nacre. Excellent flexural strength (up to 400 MPa and 290 MPa for 3Y-TZP/PMMA and 5Y-PSZ/PMMA composite, respectively), tuneable hardness and elastic modulus within the range similar to enamel, along with improved crack-resistance behaviour were demonstrated on both zirconia composites. In addition, both zirconia/PMMA composites showed acceptable machinability, being easy to mill, as would be required to produce a dental crown. SIGNIFICANCE: Nacre-like zirconia/PMMA composites therefore exhibit the potential for use in the production of chairside CAD/CAM dental restorations.

Topics & Concepts

Materials scienceComposite materialCubic zirconiaLamellar structureFabricationInlayMicrostructureDentistryCeramicMedicineAlternative medicinePathologyCalcium Carbonate Crystallization and InhibitionMaterials Engineering and ProcessingAdditive Manufacturing and 3D Printing Technologies