Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
This instrument is directly grinded. High cutting efficiency, use in filing action.Warning: probe the canal without using rotary action. The instrument can break if it is used in a rotative movement...
2/29 Used in any common obturation technique for finishing the margins of plastic filling restorations.Tip Material: Stainless Steel
Handle: Mod. DALILA ø 6mm - Double-Ended
Handle Material: Stainless Steel..
This instrument is directly grinded. High cutting efficiency, use in filing action.Warning: probe the canal without using rotary action. The instrument can break if it is used in a rotative movement...
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
Flat tip and conicity at 2%. Designed for vertical condensation of gutta percha points. Gutta percha point is easily pushed in root canal by pushing and pulling action...
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
This instrument is directly grinded. High cutting efficiency, use in filing action.Warning: probe the canal without using rotary action. The instrument can break if it is used in a rotative movement...
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
This instrument is directly grinded. High cutting efficiency, use in filing action.Warning: probe the canal without using rotary action. The instrument can break if it is used in a rotative movement...
This instrument is directly grinded. High cutting efficiency, use in filing action.Warning: probe the canal without using rotary action. The instrument can break if it is used in a rotative movement...
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
This instrument is directly grinded. High cutting efficiency, use in filing action.Warning: probe the canal without using rotary action. The instrument can break if it is used in a rotative movement...
This instrument is directly grinded. High cutting efficiency, use in filing action.Warning: probe the canal without using rotary action. The instrument can break if it is used in a rotative movement...
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
M1 Used in any common obturation technique for finishing the margins of plastic filling restorations.Instrument name: (1.2/1.5 mm)
Tip Material: Stainless Steel
Handle: Mod. DALILA ø 6mm - Double-Ended
Handle Material: Stainless Steel..
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..
Blade grinded with a square section then twisted in order to obtain cutting power and flexibility. Helix angle higher than on reamer.
Conicity of 2%. ..