| Material |
Indication |
Physical and chemical material properties |
Everest ZH
Sintered, pressed, yttrium-stabilised zirconium oxide |
- Anterior and posterior crowns
- Anterior and posterior bridges to 45 mm length
|
- No sintering shrinkage, therefore 1:1 milling
- Very high flexural strength greater than 1200 MPa
- Conventional and adhesive fastening
|
Everest ZS
Presintered, yttrium-stabilised zirconium oxide |
- Anterior and posterior crowns
- Anterior and posterior bridges
|
- Frameworks are milled before sintering
- Shrinkage between 19% and 21%
- The material can be shaded in 5 different colours
- Flexural strength is 1155 MPa
|
IPS e.max CAD
für KaVo Everest
Lithium disilicateglass ceramic |
- Fully anatomical crowns in the anterior and posterior tooth region
- Copings in the anterior and posterior region
|
- Grinding during the machinable metaphase, in which the flexural strength is 150 MPa
- After crystallisation for 30 minutes at 850° C the flexural strength is 360 MPa
- Can be veneered with IPS e.max Ceram
|
Everest C-Temp
Plastic |
- Framework substructure
- Capable of producing full-arch frameworks Blank sizes: 42 x 20 mm and 60 x 20 mm, and disks 16 mm thick
|
- Fibre-reinforced high-performance polymer plastic
- Flexural strength approx. 450 MPa
- Conventional cementation possible
|
Everest C-Cast
Plastic
|
- Crowns and bridges for processing by casting
|
- Burns out without residue, no distortion during investment
- High casting accuracy in the alloy of choice
|
Everest T
Metall
|
- Framework substructures
- Full crowns
- Capable of producing full-arch bridges
|
- Pure metal, no alloy
- No alpha-case layer
- Excellent biocompatibility
- Low heat conductivity
- Low weight
|