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Diatit Multidrill 1.4mm & 1.6mm |
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Technical
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Related Products |
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Tips |
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 Practical
Tip: |
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Special oil for optimal surface wetting and excellent cooling effect. Preserves the life of the milling burs and produces a smoother milled surface. |
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Products
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Diatit Multidrill |
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| 1 Diatit-Multidrill, 0.8 Ø x 8 mm |
#33000740 |
$44.50 |
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| 1 Diatit-Multidrill, 1.0 Ø x 5 mm |
#33000610 |
$44.50 |
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| 1 Diatit-Multidrill, 1.0 Ø x 7 mm |
#33000620 |
$44.50 |
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| 1 Diatit-Multidrill, 1.2 Ø x 2.3 mm |
#33000750 |
$44.50 |
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| 1 Diatit-Multidrill, 1.2 Ø x 5 mm |
#33000630 |
$44.50 |
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| 1 Diatit-Multidrill, 1.3 Ø x 3.2 mm |
#33001158 |
$44.50 |
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| 1 Diatit-Multidrill, 1.3 Ø x 5 mm |
#33001157 |
$44.50 |
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| 1 Diatit-Multidrill, 1.4 Ø x 6 mm |
#33000790 |
$44.50 |
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| 1 Diatit-Multidrill, 1.5 Ø x 8 mm |
#33000730 |
$44.50 |
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| 1 Diatit-Multidrill, 1.8 Ø x 6 mm |
#33000800 |
$44.50 |
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| 1 Diatit-Multidrill, 2.0 Ø x 8 mm |
#33000720 |
$44.50 |
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| 1 M 1.4 V First Tap |
#33000671 |
$78.00 |
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| 1 M 1.4 F Last Tap |
#33000670 |
$78.00 |
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| 1 M 1.6 V First Tap |
#3300116V |
$83.00 |
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| 1 M 1.6 F Last Tap |
#3300116F |
$83.00 |
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| 1 Tap Holder |
#33000680 |
$23.95 |
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| 1 Screwdriver |
#33000690 |
$33.95 |
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| 1 Titanium Screw, M 1.4 x 2 mm |
#33000700 |
$24.50 |
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| 1 Titanium Screw, M 1.6 x 2 mm |
#33001160 |
$24.50 |
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Tungsten Carbide Center Drill |
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1.3 mm Ø |
 Information Sheet
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| 1 piece #33001159 |
$53.50 |
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Tungsten Carbide Facing Cutter |
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1.2 mm Ø |
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Information Sheet
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| 1 piece #33000650 |
$39.95 |
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INSTRUCTIONS FOR USE
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SCREWDRIVERS – HEXAGON HEAD
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| Before using this product, please read and follow these
instructions carefully. |
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1. 1. Range of application
These screwdrivers are used for tightening Bredent
screws. These screwdrivers are used for:
▪ Screws in the Security-Lock-System – Item #s 430 072
90, 430 072 91, 430 072 92, 430 072 93, 430 072 94, and
430 072 95.
▪ Titanium Screws – Item #330 007 00
▪ Included in Tool Set – Item #330 006 00
▪ Included with the OC Bridge Sectioning Attachment –
Item #430 073 02
2. Application
2.1 Screwdriver – Short
The short screwdriver is used for tightening the screws
described in section 1 on the model and in the patient’s
mouth. When used in the mouth, the screwdriver must be
attached to the operator’s wrist with a chain to prevent
aspiration/inhalation. The torque must not exceed 20 Ncm.
The knurled side of the handle on the short screwdriver
has an additional function: the square aperture can be
used for removing the retention screw (Security-Lock, OC
Bridge Sectioning Attachment, Screw Set) from the thread
after casting.
2.2 Screwdriver – Long
The long screwdriver is used for tightening the screws
described in section 1 on the model and in the patient’s
mouth. The torque must not exceed 20 Ncm.
2.3 Screwdriver – Latch
The latch screwdriver is used for tightening the
screws described in section 1 in the patient’s mouth.
When using the latch screwdriver, it is advisable to use
a torque controller set to 20 Ncm. A higher torque value
may cause the latch screwdriver or screw to shear off.
2.4 Please note
Bredent accepts no liability
whatsoever if these products are used incorrectly or the
recommended torque exceeded.
3. Disinfecting
Like all rotary instruments, these screwdrivers can be
disinfected, cleaned and sterilized using standard
techniques.
4. Storage and shelf life
Keep the screwdrivers in a dry place in a suitable bur
stand or drawer.
5. Further information
The details provided in this product information sheet
have been updated to include the latest information. We
recommend reading the product information sheet again
before using a new pack.
This product information sheet refers to:
Screwdriver Set Item #330 008 10
Short Screwdriver Item #330 006 90
Long Screwdriver Item #330 008 12
Latch Screwdriver Item #330 008 13
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INSTRUCTIONS FOR USE
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DIATIT TOOL SET 1.6 mm
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| Before using this product, please read and follow these
instructions carefully. |
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1. Indication Range
Preparation of individual dental screw connections in conjunction with a handpiece or a milling unit. The primary element must be made of a gold alloy or titanium. Tapping is only possible in very rare cases if harder alloys are used. To ensure a smooth drilling process (no stopping and thus no tilting) and a long service life of the drills, a rich quantity of oil must be used during each working process. We recommend that you use the Milling & Drilling Oil (Item #550 000 08)
2. Use in Conjunction with a Handpiece
2.1 Tungsten Carbide Center Drill 1.4 mm. Ø (1)
Primary and secondary elements are assembled and the center drill is used to prepare a small groove in the spot where the screw is to be placed. The groove provides adequate fixation for the Multidrill 1.3 x 5 mm. tool.
2.2 Diatit Multidrill 1.3 x 5 mm.
Use the Multidrill 1.3 x 5 mm. tool to drill approximately 1.5 to 2 mm. deep into the primary element (patrix) through the secondary element (matrix) that has been placed on. Drilling must be carried out in the direction in which the screw is to be placed.
Please note: The maximum speed of 5,000 rpm must not be exceeded.
2.3 Diatit Multidrill 1.3 x 3.2 mm.
(3)
Remove the secondary element (matrix). Insert the Multidrill tool, which features a stop, into the core hole of the primary element (patrix) and drill up to the stop. After drilling, thoroughly remove metal chips and oil residues from the primary element (patrix) and the secondary element (matrix). No chips or drilling residues must remain in the core hole
2.4 Tungsten Carbide Facing Cutter 1.3
(4)
Primary element (patrix) and secondary element (matrix) are assembled. Lower the Tungsten Carbide Facing Cutter 1.3 through the secondary element until the guide pilot of the facing cutter reaches the stop in the drilled core hole of the primary element.
Please note: The ideal speed is 5,000 to 10,000 rpm. Use a rich quantity of oil during this working step. Metal chips may become entrapped in the Facing Cutter. To retain the high cutting performance of the Facing Cutter, the tool must be cleaned with a wire brush or a steam jet unit. Lowering to the stop has two functions:
a) Preparation of the conical counterbore in the secondary element (matrix) to receive the screw head.
b) The drillhole in the secondary element which was prepared with the Diatit Multidrill 1.3 x 5 mm. is widened to 1.6 mm. (diameter of the screw head)
Control: After counterboring, remove the secondary element and insert the titanium screw into the counterbore. The screw thread must fit through the secondary element and at the thread, the screw head protrudes approximately 0.3 mm. from the secondary element.
Once the primary and secondary elements have been connected, the screw head is lowered 0.3 mm. deep into the primary element. Acting transverse forces between the primary element and the secondary element are not transferred onto the thread of the screw but on the much more stable screw head
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INSTRUCTIONS FOR USE
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DIATIT TUNGSTEN CARBIDE CUTTERS
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| Before using this product, please read and follow these
instructions carefully. |
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1. Description of the Product
Cutters made of fine grain Tungsten carbides sintered onto a Tungsten carbide/cobalt base. Thanks for a special type of heat treatment (hot isostatic pressing), the sintered Tungsten carbide alloy is condensed again to reduce the remaining porosity immensely.
Diatit cutters are provided with a special anti-wear layer that, although it only adds 1 micron to the surface, penetrates up to 100 microns into the metal surface.
2. Advantages
Thanks to the Diatit anti-wear layer, these cutters exhibit an extremely high Vickers hardness value of 3700. Without this Diatit layer, they have a Vickers hardness of 1850.
This leads to:
▪ Exceptionally high structural strength and resulting sharp cutting edges over a long period of time, which will not disintegrate.
▪ Hardness values double those of cutters without an anti-wear layer.
▪ Three times the service life of cutters without an anti-wear layer.
▪Grinding performance remains constant throughout a long period of time, which reduces costs and increases profit.
▪The particles created during grinding cannot become attached to the finely honed; smooth coated cutting edges of the cutter. Whereas when using non-coated cutters, the particles may even become welded to the teeth of the cutter due to the heat and pressure involved.
If there are no particles on the cutting edges:
▪The friction is reduced by half and less heat is generated.
▪If the exterior shape of the cutting edge does not change, it cuts neatly and produces smoother surfaces.
▪The cutter runs smoothly on the restoration.
▪Less friction, reduced stress on the teeth of the cutter, which will not disintegrate.
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