Anti-rotational CAD/CAM Ti-base RP for Nobel Active 4.3 internal conical
Titanium Grade 5 RP Ti-base with prosthetic screw for screw-retained zirconia crown
Active Hex RP CAD/CAM Ti-base for custom abutment and bridge fabrication
Nobel Active compatible Ti-base with indexed anti-rotational connection

Anti-Rotational CAD/CAM Ti-Base Nobel Active® Compatible - Active Hex (RP)

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$21.00 USD
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Product Details

RP Active Hex Ti-Base for Screw-Retained CAD/CAM Abutments & Crowns (Nobel Active 4.3)

The Surcam Anti-Rotational CAD/CAM Ti-Base (RP) enables precise, durable screw-retained restorations on Nobel Active® 4.3 RP–compatible internal conical (Active Hex) platforms. Machined from Titanium Grade 5 (Ti-6Al-4V), the Ti-base features an anti-rotational interface for reliable indexing and torque transfer during function.
Pair with CAD/CAM-milled zirconia or hybrid ceramic mesostructures and bond with approved adhesive systems to create a stable, esthetic custom abutment or screw-retained crown/bridge in fully digital workflows.

Pack includes: 1× Ti-Base CAD/CAM (RP), 1× Prosthetic Screw.

Benefits

  • Anti-rotational stability — Indexed interface resists rotation and supports long-term torque retention.

  • Digital workflow ready — Optimized for IOS → CAD/CAM design and milling of zirconia/PMMA/hybrid ceramic.

  • Screw-retained retrievability — Easy access for hygiene, repairs, and screw maintenance.

  • Tissue-friendly emergence — Ti-base geometry supports a clean, cleansable emergence profile.

  • Grade 5 titanium — High strength and biocompatibility for demanding occlusal loads.

Product Details

  • Compatibility: Nobel Active® 4.3 RP (internal conical, Active Hex RP)*

  • Material: Titanium Grade 5 (Ti-6Al-4V)

  • Interface: Anti-rotational indexed connection

  • Use: CAD/CAM custom abutments, screw-retained crowns/short-span bridges

  • Included: 1× Ti-Base (RP), 1× Prosthetic Screw

Specifications

  • Bonding: Use manufacturer-approved primers/resin cements for ceramic-to-titanium bonding

  • Milling: Follow library specs for wall thickness, cement gap, and screw-access design

  • Seating/Torque: Seat and torque per implant system IFU; verify values for RP platform

  • Maintenance: Periodic screw check per clinic protocol; retrievable via screw-access

Why Choose Surcam Ti-Bases?

  • Precision fit and indexing on RP Active Hex platforms

  • Streamlined digital CAD/CAM from scan to delivery

  • Retrievable restorations with dependable torque stability

Surcam Ti-Bases FAQs

Which implant platform does this Ti-base fit?

Nobel Active® 4.3 RP internal conical Active Hex platforms; always verify platform and interface before use.*

What restorations can I fabricate with this Ti-base?

Screw-retained custom abutments, single crowns, and short-span bridges milled in zirconia or hybrid ceramic per your lab protocol.

How is the ceramic mesostructure bonded to the Ti-base?

Use approved primers and resin cements indicated for zirconia-to-titanium bonding; follow material manufacturer IFU for surface prep and curing.

What torque should I apply to the prosthetic screw?

Follow the implant system’s IFU for RP torque recommendations; do not exceed manufacturer specifications.

Is this component compatible with intraoral scans and printed models?

Yes. Use the correct CAD/CAM library and ensure model/meso parameters (cement gap, wall thickness) match library settings.

* Nobel Active® is a registered trademark of Nobel Biocare. Reference is for compatibility/comparison only.