New Iceram

Description

New Iceram
When you think of aesthetic brackets, you automatically think of Iceram. One of the most recommended ceramic brackets by orthodontists.

New Iceram brackets are translucent and biocompatible, made from the purest polycrystalline aluminum oxide, and are produced through an extremely efficient manufacturing process, CIM – Ceramic Injection Molding .

The process involves the highest technology on the market, giving the brackets strength, excellent surface finish and aesthetics, as well as providing greater comfort to the patient.

One of Iceram’s main differentiators lies in its retention due to the exclusive LB2- Laser Bond Booster process , where the base is textured using laser technology, increasing its retention by 30% and ensuring greater adhesion efficiency.

Without a doubt, the best bracket when considering aesthetic treatments with clinical performance, comfort, and safety.

Color-coded markings on the fins indicate the long axis line for greater accuracy in positioning during gluing;

Retention and Adaptation

• Precise and anatomical adaptation to the tooth thanks to its base with mesiodistal and occlusogingival curvatures.
• The base contains retention pins that increase the adhesion area, ensuring greater bonding efficiency and providing safety for the orthodontist;
• Mechanical retention is achieved using the exclusive and patented laser texturing process, L2B – Laser Bond Booster, which provides the brackets with 30% greater retention compared to traditional sandblasting.
• The raised edges of the base help to cut off excess resin, making it easier to remove, while simultaneously retaining the resinous material.

Comfort and Aesthetics

• Low profile with rounded edges and short, spherical hooks, relieved contact surface with special curvatures;
• The brackets are resistant to pigmentation, providing maximum aesthetic appeal to the treatment;
• They are produced using 100% polycrystalline alumina ceramic.

Precision and Performance

• Extremely durable spherical hooks on the canines and premolars, characterized by a curved geometry, ensuring both comfort and better adaptation of elastics and accessories;
• The design of the twin fins allows for better accommodation and retention of elastic ligatures, as well as rotational control and less friction with the relief of the slot edges;
• Channels with a smaller contact area to reduce friction, promoting the sliding of the arches;
• The parts were designed with torque at the base to provide greater precision.