Abstract
The influence of 4% acetic acid (pH~2.4) and an alkaline solution of NaOH (pH~10) on the corrosion resistance and micromechanical properties of disilicate crystals containing glass-ceramics (LS2-GC’s) is studied. Partially crystallized lithium metasilicate crystal containing glass-ceramics (LS-GC’s) are annealed to fully LS2-GC’s using a one stage and a two-stage heating to induce nucleation. Materials with various chemical and wear resistance are prepared. The content of the crystalline phase in the material annealed in the two-stage process A is 60.0% and increases to 72.2% for the material heated in the one-stage process B. The main elements leached in the acidic medium are lithium and phosphorus, while lithium, silicon, and phosphorus leached into the alkaline environment. Material B exhibits better chemical resistance to the corrosive influence of 4% acetic acid under quasi-dynamic conditions. In the alkaline corrosion medium, silicon is leached from material A faster compared to the material B. After prolonged exposure to acidic or basic environments, both materials show evidence of surface structural changes. A decrease of the sliding wear resistance is observed after corrosion in the acidic environment under dynamic conditions. In both materials, the wear rate increases after corrosion.
Highlights
Modern dental ceramics are characterized by their high durability in the oral cavity
This study aims to evaluating the corrosion resistance of IPS e.max® CAD glassceramics, both in acidic and alkaline environments and at temperatures relevant to those in the oral cavity
41..ConDcliuffseiroennst heat treatments of IPS e.max® CAD resulted in materials with different 1
Summary
Modern dental ceramics are characterized by their high durability in the oral cavity. The chemical durability of such glass-ceramic materials is good but may be influenced by many factors. These include the composition and microstructure of the material, and the chemical nature of the corrosive medium, the exposure time, and the temperature. The chemical durability is evaluated mainly by weight loss, and only occasionally by the concentration of ions leached from the material into the corrosive medium. These tests were originally developed and applied to test the corrosion resistance of glass-ceramic heating plates and their conditions are irrelevant to the real oral environment. There are only few studies which relate the chemical durability of LS2-GC’s to their ion leaching characteristics [4,5]
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