Cementless
Screw
Solutions

MAXCREW

MaxCrew enables direct-to-implant prosthetic delivery, completely eliminating the need for Ti bases.

MaxCrew preserves the trusted quality clinicians rely on and is now engineered as a fully cementless solution that redefines direct to implant prosthetic delivery. Designed for precision driven implant workflows, MaxCrew eliminates Ti bases and cement dependent retention, replacing adhesive interfaces with a controlled mechanical connection at the implant platform.

Built on an advanced cementless locking concept, MaxCrew reduces restorative components, minimizes interface variability, and supports predictable seating within modern digital CAD and CAM environments. The result is a streamlined restorative architecture that enhances efficiency, mechanical stability, and long term reliability while delivering cleaner and more consistent outcomes without compromise.

1

Cementless Locking Screw

Cementless Locking Screw

At the core of MaxCrew is the Cementless Locking Screw CLS, engineered to achieve secure mechanical engagement directly at the implant interface without cement or Ti bases. By connecting prosthetics directly to the implant platform, CLS simplifies the restorative workflow while reducing interface variability and technical complications.

2

Self-Locking Friction-Fit Connection

Self-Locking Friction-Fit Connection

MaxCrew incorporates a conical head friction fit design that creates a secure self locking connection under functional load. This controlled mechanical interaction enhances long term stability and reduces the risk of debonding, dislodgement, or screw loosening commonly associated with bonded restorations.

3

Angled Access Flexibility — Up to 25°

Angled Access Flexibility

MaxCrew supports angled screw channel capability up to 25 degrees, enabling improved screw access in esthetically sensitive or space constrained cases. Integrated digital libraries within Exocad and 3Shape allow precise angulation control while preserving occlusal integrity and restorative alignment.