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For DENTISTS: “Make it e.max” provides one solution for most single and multiple unit cases. “One smile chemistry” provides simplified prescriptions and treatment plans

• For TECHNICIANS: One overlay material for multiple substructures – simplifies inventory and techniques. Utilizes the best of Press and CAD/CAM technologies and offers versatile case planning.

inLab System

Everest System

IPS

e.max CAD

ďƒ˜ High strength Glass Ceramic Block for the CAD/CAM technology

Indications ďƒ˜ anterior single unit substructures ďƒ˜ premolar single unit substructures

Flexural strength (ISO 6872) after crystallization - 360 MPa

IPS

e.max CAD FEATURES

BENEFITS

Fastest framework material for CAD/CAM in the world

maximized productivity

Easy milling

Efficient, economic processing in a CAD/CAM system

Easily conductible crystallization without complex infiltration or shrinkage processes

Fast and convenient processing without waiting times to complete the restoration

ideal combination of IPS Highest esthetic and highest e.max CAD in the anterior flexural strength can be region and IPS e.max ZirCAD combined in the posterior region

inLab System

IPS

e.max ZirCAD

ďƒ˜ Yttrium

stabilized Zirconium Oxide Block for the CAD/CAM technology

2 block sizes for single unit or bridge applications

Indications  anterior and posterior single unit substructures  3 to 4 unit bridge substructures  inlay bridge substructures

Physical Properties  CTE (100-400°C)

10.75 10-6/K

 flexural strength (ISO 6872)

900 MPa

 fracture toughness (SEVNB)

5,5 MPa m1/2

 modulus of elasticity

210 GPa

 vickers hardness

13000 MPa

 solubility (ISO 6872)

1 µg/cm2

 sintering temperature

1500°C

IPS e.max ZirCAD framework after milling

Sintramat ďƒ˜ Special furnace to sinter green body zirconium oxide restorations out of IPS e.max ZirCAD

sintered framework - complete support from the beads

complete the IPS e.max ZirCAD restoration using IPS e.max Ceram

IPS

e.max ZirCAD FEATURES

BENEFITS

High strength material for new all ceramic indications

extended indication range up to multiple posterior bridges

Conventional cementation

Easy, simplified placement

Ideal combination of the IPS e.max CAD in the anterior and the IPS e.max ZirCAD in the posterior

Combination of highest esthetics and highest strength

IPS e.max ZirPress Benefits of Pressing over Zirconium Oxide • Increased productivity – Labor shifted from ceramic department to waxing department

• Simplified fabrication process – Wax-up versus build-up technique – Detailed occlusal anatomy achieved more readily with wax-up technique

• Improved marginal fit

IPS

e.max ZirPress

ďƒ˜ Fluor-Apatite

Glass Ceramic Ingot for the press-on technique with zirconiumoxide frameworks

Indications  press on single unit substructures out of IPS e.max ZirCAD  press on IPS e.max ZirCAD bridge substructures  press on IPS e.max ZirCAD inlay-bridge substructures  press on zirconium oxide frameworks, implant substructures and implant abutments (green body / HIP) within a CTE range of 10.5 - 11.0 x 10-6 K-1 (100-400°C)

Physical Properties  CTE (100-400°C)

9.75 10-6/K

 flexural strength (ISO 6872)

110 MPa

 vickers hardness

5400 MPa

 solubility (ISO 6872)

30 µg/cm2

 pressing temperature

900 / 910°C

Shades  ingots have a larger diameter than IPS Empress ingots diameter 13 mm  small ingots only

IPS

e.max ZirPress FEATURES

BENEFITS

Fast, easy and efficient processing technique

Economical processing results in accurately fitting zirconium oxide supported restorations

Combination of PRESS and CAD/CAM technology

Advantage both technologies combined in one restoration

Different levels of opacity

Flexible application, depending on the preferred processing technique

Fluorapatite glass-ceramic ingots

Optimum masking of the zirconium oxide framework translates into highly aesthetic restorations

Full anatomy technique

Finished IPS e.max ZirCAD framework with reduced margin

Full anatomy technique

No sandblasting – apply IPS e.max Ceram ZirLiner directly to the cleaned framework

Full anatomy technique

ZirLiner firing – necessary for bond strength, background color and fluorescence

Full anatomy technique

Wax-up directly to the fired ZirLiner – ensure accurate marginal fit

Full anatomy technique

Sprue each unit directly and control the height of the objects

Full anatomy technique

Divest with glass beads – starting at 4 bar (60 psi) and fine divesting at 2 bar (30 psi)

Full anatomy technique

Pressing cleaned with glass beads

Full anatomy technique

Finished IPS e.max ZirCAD, ZirPress and Ceram bridge

IPS

e.max Press

ďƒ˜ High strength Glass Ceramic ingot for the PRESS technology

Indications  anterior and posterior single unit substructures  3-unit bridge substructures up to the 2nd pre-molar as abutment  implant substructures (single units and 3-unit bridges)

Physical Properties  CTE (100-400°C)

10.15 10-6/K

 flexural strength (ISO 6872)

400 MPa

 fracture toughness (SEVNB)

2.75 MPa m1/2

 modulus of elasticity

95 GPa

 vickers hardness

5800 MPa

 solubility (ISO 6872)

40 µg/cm2

 pressing temperature

915 / 920°C

Shades  ingots are larger compared to IPS Empress ingots (same as e.max ZirPress)  50% more material per ingot  diameter 13 mm  small and large ingots

IPS

e.max Press FEATURES

strongest pressable glass ceramic ingot with 400 MPa

various opacity levels available years of clinical expierence with lithium-disilicate

BENEFITS conventional cemented crowns and bridges up to the 2nd premolar easy shade matching and high end esthetics independent of the preparation shade enhanced clinical efficacy

IPS

e.max Pressing...

Equipment  EP 500  EP 600  EP 600 Combi

IPS

e.max Ceram

ďƒ˜ Nano-Fluor-Apatite

Glass Ceramic for veneering and characterization of all IPS e.max frameworks

Indications  veneering and characterization of all IPS e.max materials

 veneering of zirconium oxide frameworks (green body / HIP Zirconia) within a CTE range of 10.5 - 11.0 x 10-6 K-1 (100- 400°C)  layered veneers

Physical Properties  CTE (100-400°C)

9.5 10-6/K

 flexural strength (ISO 6872 / >50)

90 MPa

 vickers hardness

5400 Mpa

 solubility (ISO6872; <100 µg/cm2)

15 µg/cm2

 firing temperature

750°C

Zirconia Liner  ZirLiner provides bond strength, color and fluorescence  ZirLiner is used in combination with zirconium oxide (i.e. ZirPress, ZirCAD and other ZrO2)

 9 ZirLiner powders are available – 5g each (ZL clear, ZL 1, ZL 2, ZL 3, ZL 4, Intensiv ZL yellow, orange, brown, incisal)

IPS

e.max Ceram

Competitor Ceramic

Restorations back-lit demonstrating the effect of e.max ZirLiner - allowing translucency

Processing

Comparison with and without ZirLiner

Processing High esthetic glass ceramic framework

High strength zirconium oxide framework

Processing Wash firing with Dentin, Deep Dentin or Shades and Essence

ZirLiner firing with ZirLiner and Intensive ZirLiner

Processing Wash firing for bond strength, foundation color and fluorescence

ZirLiner firing for bond strength, foundation color and fluorescence

Processing

Layering over lithium disilicate framework

Processing

Completed IPS e.max Ceram firing

Processing

Finished IPS e.max Ceram restoration –

IPS

e.max Ceram Fabrication Options

IPS

e.max Ceram Fabrication Options

IPS

e.max Ceram Layering Diagram

IPS

e.max Ceram FEATURES

BENEFITS

One layering ceramic for an extended range of all metalfree substructure materials

One smile chemistry Simplified shade matching

Nano fluor-apatite glass ceramic

Framework independent high end esthetics

Outstanding opalescence

Resorations with a natural and vital appearance

IPS e.max Ceram One layering ceramic for high esthetic glass ceramic and high strength zirconiumioxide

Simplified layering technique independent from the framework material

Highly esthetic restorations

NEW Additions!!! IPS Natural Die Material

IPS Natural Die Material ďƒ˜ 9x IPS Natural Die Material 8g ďƒ˜ 3 new colors

Processing

Use IPS Natural Die Material to simulate the shade of the tooth preparation

Processing

A tooth colored die is the foundation for lifelike all ceramic restorations

Cement Recommendations

•Adhesive Self-Etch/Conventional •Multilink Automix •Total Etch •Variolink

Multilink Automix • Dual Cure. • Easy cleanup. • High initial bond strength. • High Radiopacity. • Mix primer A & B for self etch and bond. • Low sensitivity.

metal or metal -free metal, glass ceramic, zirconia

Opaque, Yellow,

immediate immediate shear shear bond bond strength strength Dr. Dr. Mark Mark Latta Latta MPa

34.1

35.0

17.5 12.2 5.4 0.0

MaxCEM

RelyX Unicem

Multilink A

Immediate bond. Light Cure - etched and silanted glass ceramic to dentin

immediate immediate shear shear bond bond strengths strengths -various various substrates substrates Dr. Dr. Carlos Carlos Munoz, Munoz, SUNY SUNY @ @ Buffalo Buffalo MPa

40

MaxCEM

RelyX Unicem

Panavia

Multilink

36

30

18.3

17.9

20 13.3

12 10 3.7

10.7 7.4

5.2 2

1.5

1.9

0

Ceramic

Zirconia

Non-Precious Metal

Immediate bond. Light Cure - dentin; surfaces treated according to instructions for use

shear shear bond bond strengths strengths light light cure cure vs. vs. self self cure cure

Drs. Jim Simon & Wald de Rijk, University of TN Drs. Jim Simon & Wald de Rijk, University of TN MPa

MaxCEM

40

35.1

RelyX UniCEM

Multilink 29

30

20

10

7.1 2.8

2.1

1.1

0 Light Cure

Self Cure

Light cure immediate vs. 10 minute self cure- etched and silanated glass ceramic to dentin

“I saw it for myself – 15 seconds of primer application provides five times the bond strength of competitive materials – it’s worth it to secure my patient’s restorations.”

Dr. James Simon Memphis, TN

immediate immediate shear shear bond bond strengths strengths by by operator operator 40

30

20

10

MPa

Latta Lowe Poticny & Conrad* Pierce & Gonzales* Tsotsos* Munoz Simon & De Rijk Klim & Jabuka* Touchstone* Ritter Schwartz Boscketti

0

M

U

Multilink Automix

Light Cure - glass ceramic to dentin; glass ceramic etched and silanated * smaller sample size n<10

Shear Shear bond bond strengths strengths zirconia zirconia to to dentin dentin 30

MPa

Self cure 10 minutes Self cure 24 hours Light cure immediate Light cure 24 hours 17

20

12

24 19 13 7

6

0

0

1

MaxCEM

13

11

10

2

28

27

6

2

Panavia F

RelyX Unicem

Multilink Automix

Internal data – Ivoclar Vivadent, Inc. No surface priming of zirconia. Applied Testing Center

Dental with Multilink… Multilink… Dental Economics, Economics, with •“What you get is very high bonding values in a short time with outstanding marginal integrity.” •“Forget about sensitivity issues – there is no sensitivity!” •“This is a great cement that is strong, fast, easy and universal.”

•Dr. Joe Blaes Pearls for Your Practice September 2005

Dental Advisor +++++

•“Cement is very easy to use” •“…easy seating of restorations” •“Transparent shade blends well with ceramic inlays” •“There were no reports of post-operative sensitivity”

More Great Accessories for your e.max restorations from Ivoclar Vivadent‌

OptraGate

OptraGATE Jr.

bluephase

bluephase 16i

Bluephase 16i •

Same Lightweight, ergonomic design

•

1600 mW/cm2 Power

•

5 second cure for most composites shades

•

Three Power Settings; High, Low, Ramp

•

Lithium ion battery – long usage, quick recharge

•

Corded back-up power supply

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Integrated radiometer