1. Unmatched Biocompatibility & Safety  

Self-Protective Oxide Layer: 

ASTM F67 Titanium spontaneously forms a dense TiO₂ oxide film upon exposure to air, eliminating ion release risks (e.g., nickel/aluminum in alloys) and ensuring lifelong biocompatibility in Surgical Implant Products .  

Non-Magnetic Property: 

Ideal for MRI-compatible implants (e.g., cranial mesh, pacemaker casings) without image distortion or device interference .  

2. Precision-Tuned Mechanical Properties for Diverse Implant Needs  

Bone-Mimicking Elasticity: 

With an elastic modulus (~30 GPa) close to human bone (10–30 GPa), ASTM F67 Titanium reduces stress shielding by 40% vs. stainless steel, promoting natural bone remodeling in orthopedic implants (e.g., spinal cages, bone screws) .  

Controllable Strength-Ductility Gradient: 

Grades 1–4 cover tensile strengths from 240 MPa to 550 MPa, enabling design flexibility – e.g., Grade 4 for load-bearing joints vs. Grade 1 for malleable dental abutments .  

 3. Manufacturing Excellence & Cost Efficiency  

Simplified Processing: 

Unalloyed composition allows direct cold/hot working (e.g., wire drawing for surgical sutures), cutting production cycles by 30% vs. complex alloys like Ti-6Al-4V .  

Surface Engineering Adaptability: 

Supports advanced treatments like acid etching and sandblasting to enhance osseointegration in Surgical Implant Products, with Ra ≤0.8 μm minimizing soft tissue irritation .