The innovative and versatile zirconium oxide
IPS e.max ZirCAD is the material of choice for cases in which high mechanical stability, thin restoration walls and natural-looking esthetics* are of the essence. Tooth preserving and natural-looking restorations* with considerably reduced wall thicknesses can be created as the material provides high strength.
Universal areas of application due to a wide range of solutions
- Crown copings and crowns
- Full-contour 3-unit bridges and bridge frameworks
- Full-contour wide-span bridges and bridge frameworks
- Implant-supported superstructures
Versatile processing options
Depending on which disc you select, there are several methods you may use to create your restoration, such as the monolithic method or the veneering technique
Select between infiltration, staining, cut-back or veneering technique
High stability
- Flexural strength of 850 – 1200 MPa depending on the selected IPS e.max ZirCAD material
- For thin restoration walls and minimally invasive solutions
The innovative and versatile zirconium oxide
IPS e.max ZirCAD is the material of choice for cases in which high mechanical stability, thin restoration walls and natural-looking aesthetics* are of the essence. Tooth preserving and natural-looking restorations* with considerably reduced wall thicknesses can be created as the material provides high strength.
Universal areas of application due to a wide range of solutions
- Crown copings and crowns
- Full-contour 3-unit bridges and bridge frameworks
- Full-contour wide-span bridges and bridge frameworks
- Implant-supported superstructures
Versatile processing options
Depending on which disc you select, there are several methods you may use to create your restoration, such as the monolithic method or the veneering technique
Select between infiltration, staining, cut-back or veneering technique
High stability
- Flexural strength of 850 – 1200 MPa depending on the selected IPS e.max ZirCAD material
- For thin restoration walls and minimally invasive solutions
IPS e.max ZirCAD MO (medium translucency)
Areas of application
- Crown copings
- 3-unit and multi-unit bridge frameworks with max. 2 pontics
*At natural light conditions. The use of artificially generated UV or UV-like light may result in a different impression.
