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KMID : 1023820190110010001
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The Journal of Advanced Prosthodontics
2019 Volume.11 No. 1 p.1 ~ p.6
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The effects of surface grinding and polishing on the phase transformation and flexural strength of zirconia
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Lee Ji-Young
Jang Geun-Won
Park In-Im
Heo Yu-Ri
Son Mee-Kyung
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Abstract
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PURPOSE: The purpose of this in vitro study was to evaluate the effect of surface grinding and polishing procedures using high speed zirconia diamond burs with different grit sizes on the phase transformation and flexural strength of zirconia.
MATERIALS AND METHODS: Forty disc shape specimens (15 ¡¿ 1.25 mm) with a cylindrical projection in the center of each disc (1 ¡¿ 3 mm) were fabricated with 3Y-TZP (Prettau, Zirkonzahn, Italy). The specimens were divided into 4 groups (n=10) according to the grinding and polishing procedures: Control group - grinding (coarse-grit diamond bur), Group 1 - grinding (coarse-grit diamond bur) + polishing, Group 2 - grinding (fine-grit diamond bur) + polishing, and Group 3 - grinding (fine grit diamond bur). Each specimen was analyzed by 3D-OM, XRD analysis, and biaxial flexural strength test.
RESULTS: Based on the surface morphology by 3D-OM images, polished specimens showed smoother surface and lower roughness value (Ra). In the result of XRD analysis, partial phase transformation from tetragonal to monoclinic zirconia occurred in all groups. Control group, ground with a coarse grit diamond bur, showed more t¡æm phase transformation and lower flexural strength than Groups 1 and 2 significantly.
CONCLUSION: The flexural strength in all specimens after grinding and polishing showed over 500 MPa, and those were clinically acceptable. However, grinding with a coarse grit diamond bur without polishing induced the phase transformation and low strength. Therefore, surface polishing is required for the occlusal adjustment using a high speed zirconia diamond bur to reduce the phase transformation and to prevent the decrease of flexural strength of zirconia.
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KEYWORD
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3Y-TZP, Phase transformation, XRD, Roughness, Biaxial flexural strength
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