Hybrid Metal-ZirconiaFull-Arch Bridge
CNC-milled titanium bar with bonded zirconia overlay combines metal toughness with ceramic esthetics. The ideal solution for limited prosthetic space, parafunctional patients, and long-span rehabilitations.
Clinical Advantages
Why hybrid design excels in demanding cases
Fracture Resistance
Titanium backbone absorbs peak loads, dramatically reducing catastrophic fracture risk versus monolithic designs.
Superior Esthetics
Zirconia overlay delivers natural translucency and anatomic contours for lifelike appearance.
Space Efficient
Thin titanium substructure requires minimal vertical clearance—ideal for limited prosthetic space cases.
Passive Fit
CNC-milled titanium bar ensures accurate implant interface before zirconia bonding.
Ideal Indications
When to choose hybrid over monolithic zirconia
Limited Prosthetic Space
Cases with < 10mm from implant platform to occlusal plane where monolithic zirconia thickness would be compromised.
Parafunctional Patients
Bruxers and clenchers benefit from the shock-absorbing titanium backbone reducing framework flex.
Opposing Zirconia
Metal substructure reduces screw loosening when opposing arch has hard ceramic occlusion.
Long-Span Cases
Extended cantilevers and wide implant spans gain stability from rigid titanium framework.
TECHNICAL DATA
Material Specifications
Fabrication Workflow
Reverse-engineered bar from final restoration design
Digital Planning
CBCT and intraoral scan with prosthetic wax-up
Bar Design
CAD design of titanium substructure from final restoration
Bar Milling
5-axis CNC milling from titanium disc
Bar Try-In
Passive fit verification with Sheffield test
Zirconia Fabrication
Mill and sinter zirconia shell or crown segments
Bonding & Delivery
Tribochemical treatment, cementation, final torque
Ready to Get Started?
Submit your case for prosthetic space analysis and hybrid design consultation.
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