Anterior Intrusion
Anterior Retraction
Space Closure
Elastic Engagement
Custom Formed to Exact Measurements
304v Medical Grade Stainless Steel
Post or Loop Measurement
Measure along incisal edge from distal of lateral to distal of opposite lateral..
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%. ..
Anterior Intrusion
Anterior Retraction
Space Closure
Elastic Engagement
Custom Formed to Exact Measurements
304v Medical Grade Stainless Steel
Post or Loop Measurement
Measure along incisal edge from distal of lateral to distal of opposite lateral..
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%. ..
Anterior Intrusion
Anterior Retraction
Space Closure
Elastic Engagement
Custom Formed to Exact Measurements
304v Medical Grade Stainless Steel
Post or Loop Measurement
Measure along incisal edge from distal of lateral to distal of opposite lateral..
Anterior Intrusion
Anterior Retraction
Space Closure
Elastic Engagement
Custom Formed to Exact Measurements
304v Medical Grade Stainless Steel
Post or Loop Measurement
Measure along incisal edge from distal of lateral to distal of opposite lateral..
Anterior Intrusion
Anterior Retraction
Space Closure
Elastic Engagement
Custom Formed to Exact Measurements
304v Medical Grade Stainless Steel
Post or Loop Measurement
Measure along incisal edge from distal of lateral to distal of opposite lateral..
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%. ..
Anterior Intrusion
Anterior Retraction
Space Closure
Elastic Engagement
Custom Formed to Exact Measurements
304v Medical Grade Stainless Steel
Post or Loop Measurement
Measure along incisal edge from distal of lateral to distal of opposite lateral..
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%. ..
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...
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%. ..