TwinPower Turbine, UltraE Series Non-Optic, 4H PAR-4HUEX-NK, NSK FlexiQuick Coupling J Morita 16-1818416
Item Number: | 16-1818416 |
Packaging: | ea |
Manufacturer: | J Morita Corporation |
- Buy 1, receive 1 additional handpiece (equal or lesser value)
- Buy 6, receive a Lubrina Handpiece Maintenance System
- Buy 9, receive a Lubrina PLUS 4 maintenance couplers + add a Lubrina 2 maintenance unit onto your TwinPower purchase & receive 6 additional months of handpiece warranty.
Features & Benefits:
- TwinPower Turbine® handpieces feature the world's only double-impeller rotor design.
- This unique innovation delivers superior cutting power even under high load conditions. TwinPower also offers the world's only zero drawback feature.
- A pressurized air system prevents the intake of contaminated aerosol and other particles into the air line - a first for the dental industry.
- This feature helps eliminate cross contamination of the handpiece, coupling, air line, and treatment unit.
- The Ultra Series offers excellent cutting ability with smooth, chatter-free revolutions.
- Although they are mini handpieces, clinician reviews have noted this series is powerful enough for everyday tooth preparation.
- TwinPower technology provides exceptional torque for the UltraM (18 W) and UltraE (20 W) heads.
- UltraE is slightly larger and more powerful compared to UltraM.
- It offers a head height of 12.7 mm and up to 20 watts of power.
- UltraE facilitates an improved view with a mirror or a microscope. It accepts any standard-sized bur.
- The UltraE head facilitates an improved view with a mirror or a microscope.
- The bur can easily be seen while accessing the pulp chamber.
- The small head allows for improved mirror positioning and better vision.
- When using a standard sized head, the bur must be slanted for visibility which results in removal of more tooth structure than necessary.
- No optics
- Directly compatible with: TwinPower Morita, KaVo® MULTIflex® LUX, and NSK® FlexiQuick Coupling.
- Technical Details:
- Rotation speed (rpm) - 370,000 ± 30,000
- Power* (watts) -20
- Air/water spray nozzles - 3 water, 3 air
- Head diameter (mm) -9
- Head height (mm) - 12.7
- Weight** (g) - 43-57
- Driving air pressure - 0.2-0.29 Mpa / 29-42 psi
- Body/Coating -Chrome
- Warranty (years) -1.5
- TwinPower Turbine handpieces are manufactured with a unique ceramic coating treatment that offers up to 30% greater friction forces, improving grip and durability throughout multiple sterilization cycles.
- In addition, the TwinPower's drive is generated by double impellers which are made of very fine rotor blades. The intricate production of these rotor blades is very complex.
- This is due to the double-impeller rotor design that provides a constant high level of output over a wide speed range. In this way, they are very similar to high-speed motors.
- Output power measured according to the procedure in ISO 14457:2017
- Weight varies depending on connection type
Application:
- These handpieces can be used for both ceramic and metal prosthetics.
FAQs
- What is the speed of TwinPower Turbine handpieces?
The turbines have a speed of 370,000 rpm. This can vary by +/−30.000 rpm according to requirements.
- What method do I have to use for preparing the turbines?
Please review the maintenance guides for proper care of your TwinPower Turbine handpieces. For regular maintenance and lubrication, it is highly recommended that Multi Spray, by Morita, be used for TwinPower handpieces. Other lubricants could cause TwinPower to malfunction, make it difficult to connect/disconnect, or adversely affect braking time. Refer to the instructions for use for more details on how to properly care for TwinPower using Multi Spray.
- Why are the turbines so durable?
TwinPower Turbine handpieces are manufactured with a unique ceramic coating treatment that offers up to 30% greater friction forces, improving grip and durability throughout multiple sterilization cycles.
In addition, the TwinPower's drive is generated by double impellers which are made of very fine rotor blades. The intricate production of these rotor blades is very complex.
- Why are the turbines so powerful?
This is due to the double-impeller rotor design that provides a constant high level of output over a wide speed range. In this way, they are very similar to high-speed motors.