Three-Axis Load Analysis of High-Speed Handpiece on Dental Training Teeth and Computer-Aided Design/Computer-Aided Manufacturing Blocks
Journal of the Mechanical Behavior of Biomedical Materials(2024)
Abstract
This study aimed to evaluate and compare the mechanical properties of dental training teeth with subtractive and additive computer-aided design/computer-aided manufacturing (CAD/CAM) materials used to fabricate dental simulation models. Therefore, the three-axis load generated during cutting movements, including drilling and milling performed using a dental handpiece, was measured and compared. The samples were cut vertically downward by 1.5 mm, horizontally by 6 mm, and vertically upward at a constant speed (1 mm/s), while the rotational speed of the bur was maintained at 200,000 rotations per minute. A three-axis load cell was used to measure the X-, Y-, and Z-axis loads on the specimen. The median value of the X-, Y-, and Z-axis measurements and the resultant load during the vertical-downward, horizontal, and vertical-upward movements were compared using a one-way analysis of variance and Tukey’s post hoc test. For vertical downward movement, the drilling force of the dental training teeth was lower than that of subtractive CAD/CAM blocks and similar to that of Vita Enamic® and Lava™ Ultimate. In contrast to additive CAD/CAM blocks, the drilling force of the dental training teeth was higher than that of 3D-printed resin blocks. Regarding horizontal movement, the milling force of dental training teeth was lower than that of Vita Enamic®. In contrast, the milling force of Nissin was similar to that of Lava™ Ultimate, while that of Frasaco was lower. Furthermore, compared to additive CAD/CAM blocks, the milling force of the dental training teeth was higher than that of 3D-printed resin blocks. Regarding vertical upward movement, the milling force of dental training teeth was lower than that of Vita Enamic®. Similarly, the milling force of Nissin was similar to that of Lava™ Ultimate, while that of Frasaco was lower. Additionally, compared to additive CAD/CAM blocks, the resultant loads of the dental training teeth were similar to those of the 3D-printed resin blocks.
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Key words
Dental Handpiece,Dental Training Teeth,CAD/CAM,Load Analysis
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