Ultrapak cord is made of 100% cotton, knitted into thousands of tiny loops to form long, interlocking chains. This unique knitted design exerts a gentle, continuous outward force following placement, as the knitted loops seek to open. Optimal tissue displacement occurs in 3–8 minutes. Ultrapak E kni..
This smooth fiber reinforced paper with high coloring capacity adapts perfectly to the occlusal surfaces. The occlusal contact points or centric contacts are marked very precisely because of the paper’s progressive color transfer.This 100 micron paper is impregnated with hydrophilic waxes and phar..
Ultrapak cord is made of 100% cotton, knitted into thousands of tiny loops to form long, interlocking chains. This unique knitted design exerts a gentle, continuous outward force following placement, as the knitted loops seek to open. Optimal tissue displacement occurs in 3–8 minutes. Ultrapak E kni..
Ultrapak cord is made of 100% cotton, knitted into thousands of tiny loops to form long, interlocking chains. This unique knitted design exerts a gentle, continuous outward force following placement, as the knitted loops seek to open. Optimal tissue displacement occurs in 3–8 minutes. Ultrapak E kni..
Ultrapak cord is made of 100% cotton, knitted into thousands of tiny loops to form long, interlocking chains. This unique knitted design exerts a gentle, continuous outward force following placement, as the knitted loops seek to open. Optimal tissue displacement occurs in 3–8 minutes. Ultrapak E kni..
Ultrapak cord is made of 100% cotton, knitted into thousands of tiny loops to form long, interlocking chains. This unique knitted design exerts a gentle, continuous outward force following placement, as the knitted loops seek to open. Optimal tissue displacement occurs in 3–8 minutes. Ultrapak E kni..
Orthos is derived from computer-aided anatomical analysis of hundreds of orthodontic cases and was the first scientifically
based, computer-engineered, coordinated system of brackets and wires. The bracket geometries and a coordinated arch form are
designed to help reduce the common challenges of ev..
Orthos is derived from computer-aided anatomical analysis of hundreds of orthodontic cases and was the first scientifically
based, computer-engineered, coordinated system of brackets and wires. The bracket geometries and a coordinated arch form are
designed to help reduce the common challenges of ev..
Orthos is derived from computer-aided anatomical analysis of hundreds of orthodontic cases and was the first scientifically
based, computer-engineered, coordinated system of brackets and wires. The bracket geometries and a coordinated arch form are
designed to help reduce the common challenges of ev..
Orthos is derived from computer-aided anatomical analysis of hundreds of orthodontic cases and was the first scientifically
based, computer-engineered, coordinated system of brackets and wires. The bracket geometries and a coordinated arch form are
designed to help reduce the common challenges of ev..
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%. ..