★ Bone Control Design: Based on fundamental biological principles and comprehensive scientific research findings, it provides excellent support for alveolar ridge preservation and soft tissue margin stability. This design offers the following advantages:Facilitates rapid osseointegration via SLA surface technology;Achieves optimized force transmission through the implant’s biomechanical design;Takes full account of the horizontal biological distance from bone to microgap;Controls microgap through tapered connection to reduce micromotion.
★Cross Lock + Tapered Connection: This prosthetic connection is easy to use and enables self-guided precise adaptation. It has the following advantages: The Cross Lock connection allows for clear and definitive seating through 4 grooves and a deep tapered connection guide;The orthogonal connection between the implant and abutment ensures precision and prevents rotation;The tapered connection provides the prosthesis with flexibility and long-term mechanical stability.
★Osseointegration Capacity: Titanium-zirconium alloy boasts exceptional biocompatibility, enabling efficient integration with bone tissue, reducing rejection reactions, and accelerating the healing process. In addition, the elastic modulus of titanium-zirconium alloy is close to that of natural bone tissue, which can effectively distribute occlusal stress, lower the risk of microfracture in surrounding bone, and is therefore particularly suitable for posterior tooth restoration. In cases with low bone density, osteoporosis or requiring bone augmentation, titanium-zirconium alloy exhibits superior osseointegration capacity compared with single-component materials, providing reliable support for complex implant procedures.
★SLA Surface Treatment: The sandblasted and acid-etched surface creates a microporous topography, which achieves favorable bone ingrowth performance. Meanwhile, the implant is made of titanium-zirconium alloy, endowing the product with excellent physicochemical properties and biocompatibility.
