Description: AJ Wilcock Special Plus Wire Yellow 25 Ft. Orthodontic Wires are precision-engineered orthodontic wires designed to provide optimal flexibility and resilience for various dental treatments. Crafted by AJ Wilcock, these wires offer orthodontic professionals a reliable solution for achieving controlled tooth movement.
Key Features:
Special Plus Wire Composition: The orthodontic wires are crafted from a specialized Special Plus alloy. This composition ensures a balance of flexibility and strength, allowing for controlled and effective tooth movement during orthodontic treatments.
Yellow Color Coding: The distinctive yellow color coding of these wires serves as an identifier for their specific properties. Color coding simplifies the selection process, allowing orthodontic professionals to easily identify and use the appropriate wire for the desired stage of treatment.
Optimal Length (25 Ft.): With a length of 25 feet, these orthodontic wires provide ample material for various dental applications. This length ensures flexibility in customization and adaptability to different patient needs.
Benefits:
Controlled Tooth Movement: The Special Plus Wire's unique alloy composition is designed to provide controlled and predictable tooth movement. This ensures that orthodontic treatments progress efficiently and according to plan.
Color Coding for Easy Identification: The yellow color coding simplifies the identification of the wire's characteristics. This visual cue streamlines the workflow for orthodontic professionals, allowing for quick and accurate selection during treatment.
Versatility in Orthodontic Procedures: AJ Wilcock Special Plus Wire Yellow 25 Ft. Orthodontic Wires offer versatility, making them suitable for various orthodontic procedures. Whether used for initial alignment or more advanced treatment phases, these wires cater to diverse clinical scenarios.
Consistent Performance: The consistent performance of these wires, attributed to their Special Plus alloy, ensures that orthodontic professionals can rely on their mechanical properties throughout the treatment process. This reliability is crucial for achieving successful outcomes.
