Diaswiss offers a range of surgical instruments made of different materials including stainless steel, diamond, carbide and zirconia.
This includes a selection of standard bone cutters as well as innovative instruments such as tissue trimmers for soft tissue...
TruForce archwires are manufactured with the highest quality medical grade type 304v Stainless Steel. These wires have an extremely high tensile strength and accept intricate bends without breaking.
High quality Stainless Steel
Consistent performance
High luster polish for reduced friction..
Delivered with a NEWTRON SLIM B.LED handpiece with blue ring, a white LED ring, a F.L.A.G.
kit (5x1.5ml), a power supply, 3 tips (N°1, N°1S, H3) and an autoclavable universal wrench...
• Used throughout treatment for a wide variety of archwire progressions to simplify archwire adjustment while maintaining ideal arch form
• Used with preadjusted appliances with built-in in/out relationships
• Final Phase: Slightly expanded nature is designed to account for natural settling after ..
Titanium-Niobium alloy tip. Short, retreatment in the coronal third and the isthmus.
Tip for extraction of broken canal instrument. This tip can be longer, T25L, for retreatment in the apical third of long and straight canals...
The Functional Arch Form
The functional arch form must have the proper shape for optimal overcorrection. From a functional occlusion standpoint, the arch form should accommodate joint-dictated movement patterns. This means that both Tru-Arch forms are more broad and flat across the incisors. Additio..
Force Levels Between Nickel Titanium and Stainless Steel, Nickel free
The BetaForce Beta Titanium archwires are nickel-free with properties that fall between the bendability of Stainless Steel and the flexibility of Nickel Titanium. BetaForce wires have a smooth, polished surface for excellent slidi..
Ormco stainless steel wires are made of 300 series alloys to high tensile strengths in excess of 300,000 psi. They are manufactured to the highest quality for precision, providing optimum forces for arch stability, resilience, formability and
sliding mechanics...