Milling Experiences: Difference between revisions
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=== Plywood === | |||
Most kinds of [[plywood]] should work, but of course you only get out what you put in - Micha has had bad experiences with pine plywood as it is much too soft and likes to warp. | |||
== [[Plastics]] == | == [[Plastics]] == | ||
[[Material:PC|Polycarbonate]] works better than [[PMMA|acrylic glass]]. | |||
=== [[Acrylic Glass]] === | === [[Acrylic Glass]] === | ||
{| class="wikitable sortable" | {| class="wikitable sortable" | ||
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== Polycarbonate == | === [[Polycarbonate]] === | ||
{| class="wikitable sortable" | {| class="wikitable sortable" | ||
! operation | ! operation | ||
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=== [[POM]] === | |||
==== Bits ==== | |||
tested with 2 and 3 sided HSS Bits 4mm-6mm but no indication against any other diameters | |||
==== RPM, Speeds, etc. ==== | |||
Spindle on level 1 (=16 000rpm) | |||
* Schnittvorschub: 500mm/min + | |||
* Einfahrvorschub: 500mm/min + | |||
* Ausfahrvorschub: 500mm/min + | |||
* Helixvorschub: 200mm/min + | |||
* Eintauchvorschub: 30mm/min | |||
* Depths: 2-3mm | |||
Strongly advise a horizontal Rohteilaufmaß and a final finishing cut to remove any "layer" marks. | |||
==== Cooling ==== | |||
Not neccessary with the current settings but might increase the cutting speeds drastically | |||
== [[Metals]] == | |||
=== [[Aluminum]] === | |||
Possible with a lot of patience and the correct bits, but check if it's millable aluminum | |||
* different alloys of aluminum containing Cu, Si, Pb | |||
==== Bits ==== | |||
maximum two cutting sides | |||
carbide is more rigid than HSS and advised by some online guides | |||
Tested 4mm 2-sided pointy-end bit with acceptable success | |||
==== RPM, Speeds, etc. ==== | |||
Values are only the tested ones, faster CAN be possible as well | |||
* slow RPM: 16 000 is our minimum but e.g. for a 4mm bit, 6000 RPM would be better | |||
** different mill or PID-ing? | |||
* Feed Rate/Schnittvorschub: ~200 mm/min | |||
* Einfahrvorschub: 15-20 mm/min | |||
* Ausfahrvorschub: 200 mm/min | |||
* Helixvorschub: 15-25 mm/min | |||
* Eintauchvorschub: 15 mm/min | |||
* Depths: 0.25mm per pass | |||
Milling directions (to be tested): Conventional/Up-Cut (Gleichlauf) milling milling for the basic different passes with a finish using Climb-milling/Down-Cut milling (= Gegenlauf) | |||
==== Cooling ==== | |||
Not yet tested | |||
* any sort of lubricant or coolant will increase the efficiency of aluminum milling | |||
** there are suggestions ranging from cutting fluid over WD-40 to candle wax for lubing | |||
** As coolant, a water or alcohol mist seems unsuitable with our pressboard | |||
*** instead, using the air compressor might be a possiblity | |||
[[Category:CNC]] | [[Category:CNC]] | ||
[[Category:Woodworking]] | [[Category:Woodworking]] |
Revision as of 15:39, 25 November 2018
Here we collect our experiences with CNC milling or routing different materials. Please add more information if you try something new (whether it's a success or not)!
Wood & Engineered Woods
MDF
operation | mill | spindle speed | feedrate | pass depth | plunge rate | results | comments |
---|---|---|---|---|---|---|---|
2D contour | 8 mm flat endmill, Z=2 (Sorotec UNI) | 16000 rpm ("1" on DeWalt 611) | 2000 mm/min | 3 mm | excellent | black (Bauhaus)
| |
2D contour | 8 mm flat endmill, Z=3 (cheap "VHM") | 21000 rpm ("3-4" on DeWalt 611) | 1000 mm/min | 2 mm | terrible | Bauhaus
| |
pocket clearing | 8 mm flat endmill, Z=2 (Sorotec UNI) | 16000 rpm ("1" on DeWalt 611) | 2000 mm/min | 3 mm | excellent | black (Valchromat) | |
2D chamfer | 8 mm chamfer mill, Z=4 | 16000 rpm ("1" on DeWalt 611) | 2000 mm/min | excellent | black (Valchromat) | ||
pocket operation | 1 mm flat endmill | 16000 rpm ("1" on DeWalt 611) | 400 mm/min | 2 mm | excellent | black (Bauhaus) | |
drilling holes, pocket | 1/4 inch Kyocera 1620 - 2500.500 flat endmill, 2 flute | 16000 rpm ("1" on DeWalt 611) | 1000 mm/min | 2.5 mm | 333 mm/min |
Plywood
Most kinds of plywood should work, but of course you only get out what you put in - Micha has had bad experiences with pine plywood as it is much too soft and likes to warp.
Plastics
Polycarbonate works better than acrylic glass.
Acrylic Glass
operation | mill | spindle speed | feedrate | pass depth | plunge rate | results | comments |
---|---|---|---|---|---|---|---|
pocket operation | 3 mm flat endmill, 4 flute | 17000 rpm ("1-2" on DeWalt 611) | 660 mm/min | 0.4 mm | quite good |
|
Polycarbonate
operation | mill | spindle speed | feedrate | pass depth | plunge rate | results | comments |
---|---|---|---|---|---|---|---|
pocket operation & contur | 3 mm flat endmill, 4 flute | 17000 rpm ("1-2" on DeWalt 611) | 900 mm/min | 0.8 mm | 660 mm/min | quite good |
POM
Bits
tested with 2 and 3 sided HSS Bits 4mm-6mm but no indication against any other diameters
RPM, Speeds, etc.
Spindle on level 1 (=16 000rpm)
- Schnittvorschub: 500mm/min +
- Einfahrvorschub: 500mm/min +
- Ausfahrvorschub: 500mm/min +
- Helixvorschub: 200mm/min +
- Eintauchvorschub: 30mm/min
- Depths: 2-3mm
Strongly advise a horizontal Rohteilaufmaß and a final finishing cut to remove any "layer" marks.
Cooling
Not neccessary with the current settings but might increase the cutting speeds drastically
Metals
Aluminum
Possible with a lot of patience and the correct bits, but check if it's millable aluminum
- different alloys of aluminum containing Cu, Si, Pb
Bits
maximum two cutting sides carbide is more rigid than HSS and advised by some online guides Tested 4mm 2-sided pointy-end bit with acceptable success
RPM, Speeds, etc.
Values are only the tested ones, faster CAN be possible as well
- slow RPM: 16 000 is our minimum but e.g. for a 4mm bit, 6000 RPM would be better
- different mill or PID-ing?
- Feed Rate/Schnittvorschub: ~200 mm/min
- Einfahrvorschub: 15-20 mm/min
- Ausfahrvorschub: 200 mm/min
- Helixvorschub: 15-25 mm/min
- Eintauchvorschub: 15 mm/min
- Depths: 0.25mm per pass
Milling directions (to be tested): Conventional/Up-Cut (Gleichlauf) milling milling for the basic different passes with a finish using Climb-milling/Down-Cut milling (= Gegenlauf)
Cooling
Not yet tested
- any sort of lubricant or coolant will increase the efficiency of aluminum milling
- there are suggestions ranging from cutting fluid over WD-40 to candle wax for lubing
- As coolant, a water or alcohol mist seems unsuitable with our pressboard
- instead, using the air compressor might be a possiblity