IPS e.max Ceram Incisal and Transparent Incisal demonstrate slight fluorescence and opalescence similar to natural enamel. The high stability and excellent modeling properties enable quick and accurately detailed layering of true to nature incisal edges and occlusal surfaces...
Press Ceramic Ingots are high strength lithium disilicate glass-ceramic materials used in the traditional press technique to fabricate highly aesthetic all-ceramic restorations. With a flexural strength of 470 MPa (typical mean value), they are suitable for a wide range of indications and provide re..
IPS e.max CAD is an innovative lithium disilicate glass-ceramic for CAD/CAM applications. This unrivalled material combines highly esthetic qualities with exceptional user-friendliness. Unlike other CAD/CAM materials, IPS e.max CAD covers a comprehensive spectrum of indications. A wide range of tran..
The patented metal-ceramic material, IPS Style offers dental labs maximum efficiency, easy handling and life-like esthetics. This is the first material in the history of dental ceramics to contain oxyapatite crystals. These crystals reflect a high amount of incident lighting and provide restorations..
The patented metal-ceramic material, IPS Style offers dental labs maximum efficiency, easy handling and life-like esthetics. This is the first material in the history of dental ceramics to contain oxyapatite crystals. These crystals reflect a high amount of incident lighting and provide restorations..
The Margin materials exhibit true-to-nature cervical fluorescence and are used for the fabrication of ceramic shoulders on IPS e.max ZirCAD frameworks. Due to the difference in the firing temperature to the dentin and incisal materials, the Margin materials demonstrate excellent firing stability...
The IPS e.max Ceram Dentin materials have been designed in such a way that easy and reliable shade reproduction can be achieved irrespective of the material used for the substructure...
IPS e.max Ceram Power materials have been designed with today’s all-ceramic products in mind. In the past, the goal of layering was to add translucency and depth to opaque frameworks. Now, with the high strength and highly translucent materials on the market, adding translucent layering ceramic can ..
IPS e.max CAD is an innovative lithium disilicate glass-ceramic for CAD/CAM applications. This unrivalled material combines highly esthetic qualities with exceptional user-friendliness. Unlike other CAD/CAM materials, IPS e.max CAD covers a comprehensive spectrum of indications. A wide range of tran..
IPS e.max CAD is an innovative lithium disilicate glass-ceramic for CAD/CAM applications. This unrivalled material combines highly esthetic qualities with exceptional user-friendliness. Unlike other CAD/CAM materials, IPS e.max CAD covers a comprehensive spectrum of indications. A wide range of tran..
IPS e.max CAD is an innovative lithium disilicate glass-ceramic for CAD/CAM applications. This unrivalled material combines highly esthetic qualities with exceptional user-friendliness. Unlike other CAD/CAM materials, IPS e.max CAD covers a comprehensive spectrum of indications. A wide range of tran..
IPS e.max CAD is an innovative lithium disilicate glass-ceramic for CAD/CAM applications. This unrivalled material combines highly esthetic qualities with exceptional user-friendliness. Unlike other CAD/CAM materials, IPS e.max CAD covers a comprehensive spectrum of indications. A wide range of tran..
IPS e.max CAD is an innovative lithium disilicate glass-ceramic for CAD/CAM applications. This unrivalled material combines highly esthetic qualities with exceptional user-friendliness. Unlike other CAD/CAM materials, IPS e.max CAD covers a comprehensive spectrum of indications. A wide range of tran..
Full contour partial crowns and crowns are fabricated with the low translucency ingots (LT). In the anterior region in particular, the esthetic appearance of the restorations is maximized by employing the cut-back technique...