IPS e.max CAD for Cerec/inLab LT I12/5pcs
IPS e.max CAD are lithium disilicate glass ceramic blocks for CAD/CAM technology. The manufacturing process guarantees completely homogeneous blocks. The pre-crystallized (blue) block can be easily developed in a CAD/CAM device. The block in the pre-crystallized state has a characteristic white color that goes through a blue shade to a blue-gray tone. This color depends on the composition and structure of the glass ceramics. The strength of the material in this state is 130-150 MPa and is thus comparable to other glass ceramic blocks currently available on the market. After the restoration has been cut out of the blocks, it is crystallized in the Ivoclar Vivadent ceramic furnace (e.g. Programat CS). The crystallization process is easy to carry out and, unlike other CAD/CAM systems, restorations made in this way do not shrink and do not require a time-consuming infiltration process, and the whole process takes about 20-25 minutes. Crystallization at 840 °C causes changes in the structure of the ceramics, followed by the growth of lithium disilicate crystals. The resulting densification of 0.2% is already predicted in the CAD software and taken into account when cutting the restoration. Thanks to changes in the structure, the strength of the material increases to 360 MPa and it obtains the appropriate optical properties.
IPS e.max CAD blocks are characterized by natural brightness. Thanks to the translucency and variety of shades, fully anatomical restorations can be easily fabricated with this glass ceramic.
Indications:
Veneers
inlay
Onlay
Partial crowns
Anterior and lateral crowns
Implant superstructures for single restorations (anterior and lateral sections)
Dimensions I 12 :
Width: 10.0mm
Length: 12.0mm
Height: 15.0mm
Packaging:
5 pcs
IPS e.max CAD for Cerec/InLab LT C14/ 5 pcs
IPS e.max CAD are lithium disilicate glass ceramic blocks for CAD/CAM technology. The manufacturing process guarantees completely homogeneous blocks. The pre-crystallized (blue) block can be easily developed in a CAD/CAM device. The block in the pre-crystallized state has a characteristic white color that goes through a blue shade to a blue-gray tone. This color depends on the composition and structure of the glass ceramics. The strength of the material in this state is 130-150 MPa and is thus comparable to other glass ceramic blocks currently available on the market. After the restoration has been cut out of the blocks, it is crystallized in the Ivoclar Vivadent ceramic furnace (e.g. Programat CS). The crystallization process is easy to carry out and, unlike other CAD/CAM systems, restorations made in this way do not shrink and do not require a time-consuming infiltration process, and the entire process takes about 20-25 minutes. Crystallization at 840 °C causes changes in the structure of the ceramics, followed by the growth of lithium disilicate crystals. The resulting densification of 0.2% is already predicted in the CAD software and taken into account when cutting the restoration. Thanks to changes in the structure, the strength of the material increases to 360 MPa and it obtains the appropriate optical properties.
IPS e.max CAD blocks are characterized by natural brightness. Thanks to the translucency and variety of shades, fully anatomical restorations can be easily fabricated with this glass ceramic.
Indications:
Veneers
inlay
Onlay
Partial crowns
Anterior and lateral crowns
Implant superstructures for single restorations (anterior and lateral sections)
Dimensions C14:
Width: 12.4mm
Length: 14.5mm
Height: 18.0mm
Packaging:
5 pcs
IPS e.max CAD for Cerec/inLab HT I12/5pcs
High translucency lithium disilicon ceramic blocks.
IPS e.max CAD are lithium disilicate glass ceramic blocks for CAD/CAM technology. The manufacturing process guarantees completely homogeneous blocks. The pre-crystallized (blue) block can be easily developed in a CAD/CAM device. The block in the pre-crystallized state has a characteristic white color that goes through a blue shade to a blue-gray tone. This color depends on the composition and structure of the glass ceramics. The strength of the material in this state is 130-150 MPa and is thus comparable to other glass ceramic blocks currently available on the market. After the restoration has been cut out of the blocks, it is crystallized in the Ivoclar Vivadent ceramic furnace (e.g. Programat CS). The crystallization process is easy to carry out and, unlike other CAD/CAM systems, restorations made in this way do not shrink and do not require a time-consuming infiltration process, and the entire process takes about 20-25 minutes. Crystallization at 840 °C causes changes in the structure of the ceramics, followed by the growth of lithium disilicate crystals. The resulting densification of 0.2% is already predicted in the CAD software and taken into account when cutting the restoration. Thanks to changes in the structure, the strength of the material increases to 360 MPa and it obtains the appropriate optical properties. IPS e.max CAD blocks are naturally bright. Thanks to the translucency and variety of shades, fully anatomical restorations can be easily fabricated with this glass ceramic.
Application:
Veneers
Inlay
Onlay
Partial crowns
Dimensions I 12:
- Width: 10.0mm
- Length: 12.0mm
- Height: 15.0mm
Packaging:
- 5pcs/pack
IPS e.max CAD for Cerec/inLab HT C14/5pcs
High translucency lithium disilicon ceramic blocks.
IPS e.max CAD are lithium disilicate glass ceramic blocks for CAD/CAM technology. The manufacturing process guarantees completely homogeneous blocks. The pre-crystallized (blue) block can be easily developed in a CAD/CAM device. The block in the pre-crystallized state has a characteristic white color that goes through a blue shade to a blue-gray tone. This color depends on the composition and structure of the glass ceramics. The strength of the material in this state is 130-150 MPa and is thus comparable to other glass ceramic blocks currently available on the market. After the restoration has been cut out of the blocks, it is crystallized in the Ivoclar Vivadent ceramic furnace (e.g. Programat CS). The crystallization process is easy to carry out and, unlike other CAD/CAM systems, restorations made in this way do not shrink and do not require a time-consuming infiltration process, and the whole process takes about 20-25 minutes. Crystallization at 840 °C causes changes in the structure of the ceramics, followed by the growth of lithium disilicate crystals. The resulting densification of 0.2% is already predicted in the CAD software and taken into account when cutting the restoration. Thanks to changes in the structure, the strength of the material increases to 360 MPa and it obtains the appropriate optical properties. IPS e.max CAD blocks are naturally bright. Thanks to the translucency and variety of shades, fully anatomical restorations can be easily fabricated with this glass ceramic.
Application:
Veneers
Inlay
Onlay
Partial crowns
Dimensions C 14:
- Width: 12.4mm
- Length: 14.5mm
- Height: 18.0mm
Packaging:
- 5pcs/pack
IPS e.max CAD for CEREC/inLab LT B32/3pcs
PS e.max CAD are lithium disilicate glass ceramic blocks for CAD/CAM technology. The manufacturing process guarantees completely homogeneous blocks. The pre-crystallized (blue) block can be easily developed in a CAD/CAM device. The block in the pre-crystallized state has a characteristic white color that goes through a blue shade to a blue-gray tone. This color depends on the composition and structure of the glass ceramics. The strength of the material in this state is 130-150 MPa and is thus comparable to other glass ceramic blocks currently available on the market. After the restoration has been cut out of the blocks, it is crystallized in the Ivoclar Vivadent ceramic furnace (e.g. Programat CS). The crystallization process is easy to carry out and, unlike other CAD/CAM systems, restorations made in this way do not shrink and do not require a time-consuming infiltration process, and the entire process takes about 20-25 minutes. Crystallization at 840 °C causes changes in the structure of the ceramics, followed by the growth of lithium disilicate crystals. The resulting densification of 0.2% is already predicted in the CAD software and taken into account when cutting the restoration. Thanks to changes in the structure, the strength of the material increases to 360 MPa and it obtains the appropriate optical properties. IPS e.max CAD blocks are naturally bright. Thanks to the translucency and variety of shades, fully anatomical restorations can be easily fabricated with this glass ceramic.
Indications:
Veneers
inlay
Onlay
Partial crowns
Anterior and lateral crowns
Implant superstructures for single restorations (anterior and lateral sections)
Dimensions:
Width: 14.5mm
Length: 14.5mm
Height: 32.0 mm
Packaging:
3pcs
IPS e.max CAD for CEREC/inLab MT C14/5pcs
Medium translucency lithium disilicon ceramic blocks.
IPS e.max CAD are lithium disilicate glass ceramic blocks for CAD/CAM technology. The manufacturing process guarantees completely homogeneous blocks. The pre-crystallized (blue) block can be easily developed in a CAD/CAM device. The block in the pre-crystallized state has a characteristic white color that goes through a blue shade to a blue-gray tone. This color depends on the composition and structure of the glass ceramics. The strength of the material in this state is 130-150 MPa and is thus comparable to other glass ceramic blocks currently available on the market. After the restoration has been cut out of the blocks, it is crystallized in the Ivoclar Vivadent ceramic furnace (e.g. Programat CS). The crystallization process is easy to carry out and, unlike other CAD/CAM systems, restorations made in this way do not shrink and do not require a time-consuming infiltration process, and the entire process takes about 20-25 minutes. Crystallization at 840 °C causes changes in the structure of the ceramics, followed by the growth of lithium disilicate crystals. The resulting densification of 0.2% is already predicted in the CAD software and taken into account when cutting the restoration. Thanks to changes in the structure, the strength of the material increases to 360 MPa and it obtains the appropriate optical properties. IPS e.max CAD blocks are naturally bright. Thanks to the translucency and variety of shades, fully anatomical restorations can be easily fabricated with this glass ceramic.
Application:
Inputs
Veneers
Thin veneers
Partial crowns
Anterior and lateral crowns
Packaging:
- 5pcs/pack
IPS e.max CAD for CEREC/inLab MO C14/5pcs
PS e.max CAD are lithium disilicate glass ceramic blocks for CAD/CAM technology. The manufacturing process guarantees completely homogeneous blocks. The pre-crystallized (blue) block can be easily developed in a CAD/CAM device. The block in the pre-crystallized state has a characteristic white color that goes through a blue shade to a blue-gray tone. This color depends on the composition and structure of the glass ceramics. The strength of the material in this state is 130-150 MPa and is thus comparable to other glass ceramic blocks currently available on the market. After the restoration has been cut out of the blocks, it is crystallized in the Ivoclar Vivadent ceramic furnace (e.g. Programat CS). The crystallization process is easy to carry out and, unlike other CAD/CAM systems, restorations made in this way do not shrink and do not require a time-consuming infiltration process, and the entire process takes about 20-25 minutes. Crystallization at 840 °C causes changes in the structure of the ceramics, followed by the growth of lithium disilicate crystals. The resulting densification of 0.2% is already predicted in the CAD software and taken into account when cutting the restoration. Thanks to changes in the structure, the strength of the material increases to 360 MPa and it obtains the appropriate optical properties. IPS e.max CAD blocks are naturally bright. Thanks to the translucency and variety of shades, fully anatomical restorations can be easily fabricated with this glass ceramic.
Application:
- Blocks of medium opacity characterized by ideal properties to hide discoloration of pillars. Particularly indicated for the fabrication of frameworks in a reduced anatomical shape intended for veneering and implant-supported restorations.
Dimensions C 14:
Width 12.4mm
Length 14.5mm
Height 18mm
Packaging:
5pcs/pack
IPS e.max CAD for PrograMill HT C14/5
Lithium disilicate glass ceramic. IPS e.max CAD is the world's best-selling glass ceramic. It is suitable for the efficient fabrication of full contour restorations and is known for its versatile applications, wide range of processing options and high strength of 530 MPa.
Packaging:
- 1pack/5pcs
IPS e.max CAD for PrograMill MT C14/5
Lithium disilicate glass ceramic. IPS e.max CAD is the world's best-selling glass ceramic. It is suitable for the efficient fabrication of full contour restorations and is known for its versatile applications, wide range of processing options and high strength of 530 MPa.
Packaging:
- 1pack/5pcs
IPS e.max CAD for PrograMill HT I12/5
Lithium disilicate glass ceramic. IPS e.max CAD is the world's best-selling glass ceramic. It is suitable for the efficient fabrication of full contour restorations and is known for its versatile applications, wide range of processing options and high strength of 530 MPa.
Packaging:
- 1pack/5pcs