Nanoksa G-Plus

Nanoksa G-Plus
Digital Dentistry Revolution

Type of loads applied on dental implants :
Weight.
Force.
Time.

Formulas Available

Discs

Nanoksa G Plus is composed of high performance polymers, designed to provide superior cutting performance and long-lasting durability. The disc is made of a special blend of polymers that are designed to resist wear and tear, while providing a smooth, consistent cut. The disc is designed to be used with a variety of dental tools, including drills, grinders, and polishers.
The disc is also designed to be used with a variety of materials, including metal, ceramic, and composite materials. The disc is designed to provide a precise, consistent cut, while reducing vibration and noise. The disc is also designed to be easy to use and maintain, with a long-lasting life.

Strength

Bacterial accumulation prevention

Aesthetics

color mimics natural teeth

Weight mimics natural teeth

Bonding to surface

Specs

1-Available Formulas :

-Liquid : Resin
-Solid: Discs

2-Material Composition :

High performance polymers filled with Nano-Zirconia and Carbon for the production of
permanent restorations on dental implants.

3-Strength characteristics :

Absorption ISO 1047 ug/mm ³ 4.9
Solubility ISO 1047 ug/mm³ < 0.1
Tensile test maximum load ISO 178 N 294
Breaking load ISO 178 N 237
Tensile test maximum load ISO 527 N 3274
Breaking load ISO 527 N 2639

Tests of Flexure Strength

TESTS OF COLOR STABILITY

ΔECIELAB = (∆L* 2 + ∆a* 2 + ∆b* 2 ) ½
Where: L* = lightness (0-100), a* = (change the color of the axis red/green) and b* = (color variation axis yellow/blue )
[ Johnston WM. Color measurement in dentistry. J Dent 2009;37 Suppl 1:e2-6.]
TESTS OF COLOR STABILITY

Colour measurement

TESTS OF BONDING STREGHNTH

Test procedure

All samples were individually mounted on a computer controlled materials testing machine (Model 3345;
Instron Industrial Products, Norwood, MA, USA) with a loadcell of 5 kN and data were recorded using
computer software (Instron® Bluehill Lite Software). Samples were secured to the lower fixed
compartment of testing machine by tightening screws. Fracture resistance test was done by
compressive mode of load applied at 135o angle (through fixing the sample in specially designed 45o
angle jig) at incisal part of palatal surface using a metallic rod with round tip (3.4 mm diameter)
attached to the upper movable compartment of testing machine traveling at cross-head speed of
1mm/min with tin foil sheet in-between to achieve homogenous stress distribution and minimization of
the transmission of local force peaks.. The load at failure manifested by an audible crack and confirmed
by a sharp drop at load-deflection curve recorded using computer software (Bluehill Lite Software
Instron® Instruments). The load required to fracture was recorded in Newton

One step manufacturing
Get your full arch in only 30 mins

A 59 years old diabetic comes with a complain of mobile teeth and needing to restore anterior teeth and a masticatory function, without using implants, So we resorted it with a 3.8 gm bridge for upper and 4 gm for lower

Staining Technique

Layering Technique

Formulas Available

RESIN

As a result of modern technology, the resin has exceptional strength properties. It was necessary to develop a resin with
high performance and high biocompatibility of plant
origin for use in the oral cavity, which we named
Nanoksa G Plus Resin. Nanoksa G Plus Resin achieved
values of 100% biocompatibility in tests conducted in
accredited research laboratories.Due to its durability,
mechanical stability, and micro-mechanical elasticity
(shock absorption), Nanoksa G Plus provides a crucial
option for implant-prosthesis works.