Place of Origin: | China |
---|---|
Brand Name: | ANGELS |
Certification: | TUV CE, ISO13485, ISO9001 |
Model Number: | Cortex® |
Minimum Order Quantity: | 10pcs |
Price: | USD12~18/pcs (included screw, 14mm) |
Packaging Details: | 1pcs/bag |
Delivery Time: | 3~5 days |
Payment Terms: | T/T, Western Union, MoneyGram |
Supply Ability: | 500,000pcs/month |
Material: | Ti 6AI-4V ELI (Grade 5) | Warranty: | 12 Months |
---|---|---|---|
After-sale Service: | Online Technical Support | Size: | 10mm, 14mm |
Compatible: | 3.8mm | Connection: | Engaging |
Properties: | Implant Materials & Artificial Organs | Product Tolerance: | +-0.01mm |
High Light: | 14mm Engaging Pre Milled Abutment,Cortex pre mill abutment,3.8mm pre mill abutment |
Compatible 3.8mm Cortex 14mm Engaging Pre Milled Abutment
Cortex® Dental Implant Internal Titanium Premill Blank Abutment 14mm Engaging
Cortex®
* 3.8mm
Material:
Ti 6AI-4V ELI (Supply from Germany)
Feature:
* Simply efficiency
* Precision machined up to ± 5µm
* Benefit from a faster and controlled turnaround time
* Different diameter available of 10mm, 14mm
Pre-milled Abutment Blanks, you can now produce titanium customised abutments with your milling equipment.
Boost your efficiency by using your milling machines and benefit from all major implant connections.
Approved by CE, ISO 9001, ISO 13485
* We also can provide another 3 type of premill as above picture shown. Welcome to further inquire. Thanks.
Points of Cortex Dental Implant:
Optimal Bone Grip & Compression
Vertical and horizontal bone compression resulting in active bone contact Horizontal Bone Compression
Achieved by the conical design of the implant's core
Vertical Bone Compression
Achieved by a gradual thickening of the implant's external threads Locking Elements - Patented
Provides enhanced resistance to counter-clockwise rotational torques during the prosthetic rehabilitation process
Primary Stability
Implant geometry and surface treatments play a critical role in the primary fixation and long-term mechanical stability.
Surface optimizations allow greater Bone-to-Implant-Contact which enhance the growth rate of new bone during
the remodeling process. Optimal surface roughness provides an ideal environment for protein absorption and cell
attachment.