Purpose: The aim of the present study was to investigate the reactivity of zirconia to phosphate-bonded investment on the process of hot-pressing technique.
Methods: Disc-shaped specimens, 16 mm diameter and 0.4mm thick were prepared by cutting and grinding. These specimens were finally sintered. Half of them were sandblasted. The non-sandblasted specimens were used for controls. Both of zirconia discs with and without sandblasting were invested into the three kinds of phosphate-bonded investment. The investments were fired and broken to take out specimens. The biaxial strengths were measured in the way of the biaxial flexural tests according to ISO-6872.
Results: The biaxial strengths were ranged 762-1200 MPa at the average. The biaxial strengths of sandblasted zirconia discs heated with phosphate-bonded investment were decreased significantly (p < 0.01). SEM and EPMA revealed that the various compounds were observed on the sandblasted specimens. XRD revealed that surfaces of specimens heated with the phosphate-bonded investment showed the formation of phosphate compounds.
Conclusions: The phosphate compounds inhibit stress-induction phase transformation of zirconia and decrease the biaxial strength.
Keywords: Biaxial flexural strength; Phosphate-bonded investment; Shear bond strength; Zirconia.
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