Cutting Edge Length (mm) | 13.7 |
Total Length(mm) | 38 |
Shank Diameter(mm) | 3.5 |
Name | Sku | Cutting Edge Length (mm) | Total Length(mm) | Shank Diameter(mm) |
---|---|---|---|---|
SR-XL-C12S-ED | SRXLC12SED | 13.7 | 38 | 3.5 |
SR-XL-S12S-ED | SRXLS12SED | 13.7 | 38 | 3.5 |
SR-XL-S12-ED | SRXLS12EDX | 13.2 | 38 | 3.5 |
SR-XL-CP12EF-ED | SRXLCP12EF | 19 | 40 | 3.5 |
SR-XL-C12EF-ED | SRXLC12EFE | 19 | 40 | 3.5 |
SR-XL-C20-ED | SRXLC20EDX | 21.5 | 46 | 3.5 |
SR-XL-S20-ED | SRXLS20EDX | 22 | 46 | 3.5 |
CAD/CAM milling burs for Sirona MC XL are used for grinding & milling for lithium disilicate, glass ceramics. They precisely match the system, working more efficiently.
Precision Machining: The burs are engineered to provide high accuracy when milling lithium disilicate, which is essential for achieving the correct fit and finish in dental restorations such as crowns, veneers, and inlays.
Material Compatibility: Specifically designed for lithium disilicate, these burs optimize the milling process, enhancing cutting efficiency and reducing wear on the tools.
Efficiency: The design allows for faster milling times, improving workflow efficiency in dental labs.
The primary milling machine compatible with these CAD/CAM burs is:
Sirona inLab MC XL
Type: 4-axis milling machine
Features:
Capable of both wet and dry processing.
Supports a variety of materials including lithium disilicate, zirconia, and PMMA.
Provides fast milling times and is designed for single-visit restorations.
Applications: Ideal for producing crowns, bridges, inlays, and other complex restorations efficiently.
High Precision and Accuracy:
The burs deliver exceptional precision during the milling process, ensuring restorations fit accurately and meet aesthetic standards.
Durability:
Made from high-quality materials with advanced coatings (such as diamond or carbide), these burs are designed to withstand the rigors of milling hard materials like lithium disilicate, resulting in a longer lifespan.
Material Efficiency:
Optimized specifically for lithium disilicate, these burs enhance the milling process by minimizing tool wear and improving cutting efficiency, which can lower operational costs.
Versatility:
While primarily used for lithium disilicate, these burs can also effectively mill other materials such as zirconia and PMMA, making them a versatile choice for dental labs.
Improved Workflow Efficiency:
The design allows for faster milling times, enabling dental labs to produce multiple restorations in a shorter timeframe, thus increasing productivity.
Enhanced Aesthetic Quality:
Achieving smooth finishes contributes to the aesthetic quality of the final restoration, ensuring that it blends seamlessly with natural teeth.
Some products on this page may be custom designed according to specific customer requirements. The design copyright belongs to the original designer. If you are interested in purchasing or customizing similar product, please contact our sales team.