Abstract

Background. Recently, non-presintered chromium-cobalt (Cr-Co) blocks with the commercial name of Ceramill Sintron were introduced to the market. However, comprehensive studies on the dimensional accuracy and fit of multi-unit frameworks made of these blocks using the coordinate measuring machine (CMM) are lacking. This study aimed to assess and compare the dimensional changes and fit of conventional casting and milled frameworks using Ceramill Sintron. Methods. A metal model was designed and scanned and 5-unit frameworks were fabricated using two techniques: (I) the conventional casting method (n=20): the wax model was designed, milled in the CAD/CAM machine, flasked and invested; (II) the milling method using Ceramill Sintron blocks (n=20): the wax patterns of group 1 were used; Ceramill Sintron blocks were milled and sintered. Measurements were made on the original reference model and the fabricated frameworks using the CMM in all the three spatial dimensions, and dimensional changes were recorded in a checklist. Data were analyzed with descriptive statistics, and the two groups were compared using one-way ANOVA and Tukey test (α=0.05). Results. The fabricated frameworks in both groups showed significant dimensional changes in all the three dimensions. Comparison of dimensional changes between the two groups revealed no significant differences (P>0.05) except for transverse changes (arch) that were significantly greater in Ceramill Sintron frameworks (P<0.05). Conclusion. The two manufacturing processes were the same regarding dimensional changes and the magnitude of marginal gaps and both processes resulted in significant dimensional changes in frameworks. Ceramill Sintron frameworks showed significantly greater transverse changes than the conventional frameworks.

Highlights

  • Base-metal alloys currently used for the fabrication of dental prostheses via the conventional manufacturing process are divided into two groups of nickel-chromium (Ni-Cr) and chromium-cobalt (CrCo) alloys.[1]

  • Comparison of dimensional changes between the two groups revealed no significant differences (P>0.05) except for transverse changes that were significantly greater in Ceramill Sintron frameworks (P

  • The two manufacturing processes were the same regarding dimensional changes and the magnitude of marginal gaps and both processes resulted in significant dimensional changes in frameworks

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Summary

Introduction

Base-metal alloys currently used for the fabrication of dental prostheses via the conventional manufacturing process are divided into two groups of nickel-chromium (Ni-Cr) and chromium-cobalt (CrCo) alloys.[1] The Ni-Cr alloys can be allergenic due to the release of Ni ions.[2,3] Cr-Co alloys are more commonly used for the fabrication of restorations.[4,5]. Due to the hardness of Cr-Co-based alloys, the milling process of fully-sintered blocks is difficult and results in excessive wear of the milling machine. For this reason, presintered soft Cr-Co blocks were recently introduced to enhance the process of fabrication and milling of these restorations.[4] In the process of fabrication of these restorations, the restoration is first designed and the respective blocks are milled by the CAD/CAM machine.

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