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cylindrical dental implant / titanium / internal hexagon / rough
S2™

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Characteristics

  • Configuration:

    cylindrical

  • Material:

    titanium

  • Connection:

    internal hexagon

  • Other characteristics:

    self-tapping, self-drilling, narrow, screw, rough

  • Implant diameter:

    3 mm (0.12 in)

  • Implant length:

    10 mm, 11.5 mm, 13 mm, 16 mm (0.39 in)

Description

S2 Implant
Dentalis S2™ is a two-piece implant, slightly tapered with pronounced narrowing towards the top. With its specialized design, it can achieve high primary stability in soft bone, and is primarily recommended for bone types 1 and 2. The S2 design features dual thread and dual spiral channels, shortened drilling protocols, and the capability for self-drilling, self-tapping, and self-condensing bone. With a variety of lengths ranging from 6.5 mm to 18 mm, and diameters ranging from from 3mm to 6mm, the S2 can provide clinical solutions in even the most challenging situations.
The S2 implant offer conical internal hex connection with 45° central hole
Surface roughness is achieved from “grit-blasting,” using a unique combination of the HA particles (soluble) with different sizes of grains. This process creates optimal structural roughness on the surface the surface, and enables the incorporation of biocompatible particles (such as HA and TCP).Roughness is measured with an average roughness (Ra), while the most commonly used parameter for describing roughness is calculated in microns. The rough surfaces produced by grit-blasting have irregular geometries with Ra value of 3.0 μm, which is considered optimal for the osseointegration process.All Dentalis implants are made of Ti 6Al-4V ELI that is a higher-purity (“extra-low interstitial”) version of Ti 6Al-4V, with lower specified limits on iron and the interstitial elements C and O. It is an alpha + beta alloy .Ti 6Al-4V ELI may be considered in any biomedical application, particularly for implantable components, because of its biocompatibility, good fatigue strength, and low modulus.