Applies to: Dental machines

Milling cobalt chrome (CoCr)

Introduction

Machining non-precious metals requires special attention to a few items if you want to achieve perfect results.

Collet chuck

  • The collet chuck of the spindle needs to be tightened firmly, otherwise the tool will be pressed into the collet chuck.
  • The collet chuck of the spindle needs to be clean and without grease inside, otherwise rotational imperfections during machining will degrade the machining results and can cause tool breakages.
  • The STL file must be free from design errors .

DentalCNC

To increase process reliability, we recommend the following:

  • Activate the option Individual processing in DentalCAM.
  • Add at least 1 backup tool to the tool magazine in case of a tool breakage.

Machines suitable for cobalt chrome

Machine Wet /dry machining Material Supported holder

K4 /

K4 edition

Dry machining

Blanks

K5 /

K5+

Dry machining

Discs and prefabricated abutments

Abutment holder:

  • MEDENTIKA PreFace ®

  • DESS Pre-milled

N4 /

N4+

Wet machining

Prefabricated abutments

Abutment holder:

  • MEDENTIKA PreFace ®

  • DESS Pre-milled

  • DENRACLE Pre-milled ®

  • MIT Pre-Mill ®

  • nt-trading Preform ®

R5

Dry machining

Discs and prefabricated abutments

Abutment holder:

  • MEDENTIKA PreFace ®

  • nt-trading Preform ®

S1

Dry machining

Discs and prefabricated abutments

Abutment holder:

  • MEDENTIKA PreFace ®

  • DESS Pre-milled

  • nt-trading Preform ®

S2 /

S5

Dry machining

Discs and prefabricated abutments

Abutment holder:

  • MEDENTIKA PreFace ®

  • DESS Pre-milled

  • nt-trading Preform ®

Tools for machining CoCr

Match code (4-axis except E4) Match code (5-axis) Cutting edge diameter Tool geometry Teeth DentalCAM 7 DentalCAM 8

M060–R2-32

M060–R2–35

0.6 mm

Radius

2

Yes

Yes

M100–R2-32

M100–R2–35

1.00 mm

Radius

2

Yes

Yes

M120–T2–32

M120–T2–35

1.20 mm

Torus

2

Yes

Yes

M200–R4–32(-C)*

M200–R4–35(-C)*

2.00 mm

Radius

4

Yes

Yes

We highly recommend the use of original vhf tools for optimal results and a high service life of your machine and its components.

Indications that can be machined

The table shows all indications that can be machined from CoCr on vhf machines and the most suitable machines for these indications.

Indication

K4 / K4 ed.

K5 / K5+ N4 / N4+ R5 S1 S2 / S5

Coping and bridge framework

Yes

Yes

No

Yes

Yes

Yes

Fully anatomical crown/bridge

Yes

Yes

No

Yes

Yes

Yes

Abutment

No

Yes

Yes

Yes

Yes

Yes

Telescope crown

No

Yes

No

Yes

Yes

Yes

Implant bar

No

Yes

No

Yes

Yes

Yes

Secondary crown

No

Yes

No

Yes

Yes

Yes

Occlusal screw-retained bridge

No

Yes

No

Yes

Yes

Yes

Tool life

The maximum values for tool service life that you can actually achieve with your tools depend on many factors, such as the quality of the tools, the quality of the blanks, machine maintenance and cleaning, etc. Therefore, the maximum service life that DentalCNC specifies on delivery are standard values that must be adjusted until they correspond to the maximum values you can achieve.

The tool life depends on the bending strength of the processed material. Different bending strengths result in different tool life.

All tests were performed with a 4-flute cutter.

Material Tool life

CoCr discs

> 8 hours

CoCr prefabricated abutments

Dry machining

 

2 – 3 hours (approx. 4 – 6 blanks)

Correct setting of bars

Positioning bars in X- and Y-direction

Correct Incorrect Description

Place bars evenly on all sides

If you place bars on only one side, vibration during machining may occur. This can lead to the blank or tool getting damaged.

Correct (left): Bars on all sides of the object

Incorrect (right): Bars on only one side of the object

Place bars with sufficient distance from each other

If there isn't enough space between bars, the air nozzle of the spindle may not be able to blow off machining debris as required, which can damage the tool.

Correct (left): Bars with suitable distances between them

Incorrect (right): Bars without suitable distances between them

Set enough bars

You should at least set 3 bars for each object. Multi-unit-objects generally require 2 bars per unit. Otherwise, vibrations may occur during machining, which can lead to the blank or tool getting damaged.

Correct (left): Enough bars have been set

Incorrect (right): Too few bars have been set

Positioning bars in Z-direction

  • Position all bars on the equator. If the equator is on the prepline, position the bar approx. 1 mm above the equator.

Equator marked with arrows

Equator marked with arrows

You need to position all bars completely on the object.

The bar in the figure below is positioned too high. Only a part of the bar is positioned on the object.

Incorrect positioning of a bar

The bar in the figure below is positioned too low. Only a part of the bar is positioned on the object. Additionally, the bar is positioned on the prepline.

Incorrect positioning of a bar

The bar in the figure below is correctly positioned on the equator.

Correct positioning of a bar

Correct positioning of objects

The workspace of the objects must not overlap in CoCr blanks and titanium blanks.

Correct: no overlap

Incorrect: overlap