- Simple: For all dentists and all cases. High debris removal ability
- Flexible: For severely curved root canals
- Safe with high fatigue resistance off-center shape
- JIZAI Mani NiTi Rotary Glider Files
JIZAI Glider NiTi rotary file from MANI has a .013 tip size and a .04 taper and is ideal for establishing a glide path and easing the transition to greater tapered NiTi shaping files.
- JIZAI Gliders are ideally suited to fit into the MANI JIZAI Endodontic System but can be used as part of a practitioner's existing filing protocol.
- JIZAI Gliders are manufactured from an optimized R-Phase/Austenitic NiTi alloy to allow the file to exhibit excellent cutting ability despite the finer tip size. Made in Japan
Features :
- Optimal cutting ability - Radial land prevents over-cutting and biting on the root canal walls.
- Prevent the screw-in effect significantly - The unpredictable screw-in effect is one of the biggest problems during root canal shaping. JIZAI enables smooth cutting with less screw-in effect due to its cross section and flute pitch.
- Simple: For all dentists and all cases. High debris removal ability
- Flexible: For severely curved root canals
- Safe with high fatigue resistance off-center shape
- JIZAI Mani NiTi Rotary Glider Files
JIZAI Glider NiTi rotary file from MANI has a .013 tip size and a .04 taper and is ideal for establishing a glide path and easing the transition to greater tapered NiTi shaping files.
- JIZAI Gliders are ideally suited to fit into the MANI JIZAI Endodontic System but can be used as part of a practitioner's existing filing protocol.
- JIZAI Gliders are manufactured from an optimized R-Phase/Austenitic NiTi alloy to allow the file to exhibit excellent cutting ability despite the finer tip size. Made in Japan
Features :
- Optimal cutting ability - Radial land prevents over-cutting and biting on the root canal walls.
- Prevent the screw-in effect significantly - The unpredictable screw-in effect is one of the biggest problems during root canal shaping. JIZAI enables smooth cutting with less screw-in effect due to its cross section and flute pitch.