![]() Matts Andersson, the repeatable, high-precision fabrication of individualized dental prosthetics at an industrial scale was now possible. The 1983 introduction of the Procera method represented a milestone in dental CAD/CAM technology, as it automated the manufacturing of prosthetic dental components. The development of dental CAD/CAM technology 4 To provide patients with restorations that were both functional and visually pleasing, the methods of manufacturing and handling these materials needed to be rethought. They were either too weak or in the case of some newer, high-strength ceramic materials, unable to be processed by conventional technologies and methods. Early generations of ceramic restorative materials faced issues. Zirconia’s superior level of bending strength and similar fracture toughness, in comparison to other ceramic-based materials, have made it an extremely popular choice in dental labs worldwide. The ability of this material to be built up in a multi-layered manner is what allows for restorations to emulate the translucency and color gradation of natural dentition. Have helped to make zirconia a viable, long-lasting solution for dental restorations. This esthetic promise, combined with its strength 1 and biocompatibility, 2 Otherwise known as zirconium dioxide, zirconia has the potential to be processed to possess a tooth-like translucency. Zirconia: Achieve natural, long-lasting esthetics 4 NobelProcera: Precision meets individualization.2 The development of dental CAD/CAM technology.1 Zirconia: Achieve natural, long-lasting esthetics.
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