IPS e.max® System
Designed with versatility, reliability and longevity in mind, IPS e.max is the unmatched in clinical success. Available for both the Press and CAD/CAM technique, making it easily accessible.
No matter which technique you choose, all components are available from one manufacturer. If you prefer to work with the Press technique, two different types of ingots are available: IPS e.max Press, a lithium disilicate glass-ceramic and IPS e.max ZirPress, a glass-ceramic which is pressed onto zirconium oxide in a fast and efficient procedure. For CAD/CAM applications, either the highly esthetic IPS e.max CAD a lithium disilicate glass-ceramic blocks or the high-strength IPS e.max ZirCAD zirconium oxide can be selected, depending on case requirements. The nano-fluorapatite layering ceramic IPS e.max Ceram completes the all-ceramics system. This material is used to veneer multiple materials including lithium disilicate glass-ceramic or zirconium oxide.
IPS e.max Press are biocompatible lithium disilicate glass-ceramic ingots. They offer the fit, form and function which is expected from pressed ceramics. In addition, they offer flexural strength of 470 MPa and resilient fracture toughness. With optimized esthetic properties, creating all-ceramics restorations that offer true-to-nature results has never been so easy.
IPS e.max ZirCAD is a versatile and innovative premium zirconium oxide material with a large indication range. IPS e.max ZirCAD is ideal for fabricating copings and frameworks as well as full-contour crowns and bridges. Dental professionals benefit from the material's high performance, versatility and function. IPS e.max ZirCAD is the material of choice when high strength, minimal reduction and natural looking esthetics are required.
IPS e.max CAD unites modern processing technology with a high-performance material. The lithium disilicate glass-ceramic is manufactured in an innovative technological process, unique in the dental industry. The glass-ceramic is processed for the laboratory in a crystalline intermediate phase. In this “soft” state, the material exhibits its unusual “bluish” color and strength of approximately 160 MPa. In this “blue” phase, the restorations can be manually adjusted or cut-back in a fast and efficient fashion. IPS e.max CAD acquires its final strength of 530 MPa and the desired esthetic characteristics, such as tooth color, translucency and brightness, during a simple and quick crystallization process.
IPS e.max CAD Abutment Solutions –IPS e.max CAD Abutment Solutions are designed for the fabrication of implant-supported hybrid structures for single teeth using CAD/CAM technology. The hybrid components are individually milled from lithium disilicate blocks and bonded to a titanium base.
IPS e.max Press Abutment Solutions – IPS e.max also allows you to fabricate implant-supported hybrid restorations – by combining a titanium base (Ti base) with the lithium disilicate glass-ceramic from Ivoclar Vivadent. Two options are available: Hybrid Abutments and Hybrid Abutment Crowns.
IPS e.max Ceram is the connecting element between the different components of the all-ceramic system. You now only have to use one layering ceramic, which will enable you to achieve highly esthetic results on glass-ceramics as well as zirconium oxide.
IPS e.max ZirPress ingots ideally combine the PRESS and CAD/CAM technique. Take advantage of the accuracy of fit as well as the strength of zirconium oxide-reinforced restorations. The fluorapatite glass-ceramic ingots are used to press onto IPS e.max ZirCAD frameworks.