Feedrate: Difference between revisions

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(moving feeds and speeds calculators from "CNC Router")
(more content all around - some research from my first hardwood routing :-))
 
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Calculating the proper [[milling]] feedrate ("travel speed") is crucial for a long lifetime of your bits. Check out this [http://www.precisebits.com/tutorials/calibrating_feeds_n_speeds.htm English tutorial].
Calculating the proper [[milling]] feedrate ("travel speed") is crucial for successful projects and a long lifetime of your [[End Mills|end mills]]. Check out this [http://www.precisebits.com/tutorials/calibrating_feeds_n_speeds.htm English tutorial].
We are collecting [[Milling Experiences|our experiences with different settings]].
 
Problems will occur if your speeds are too low '''or''' too fast for the given tool geometry and material, so it's not advisable to start very low and "sneak up on the ideal" like you might try when [[Laser Cutting|laser cutting]]. The proper ''combination'' of spindle speed and feedrate is especially difficult to dial in if you just guess around, costing you tons of time and material...
 
== Example Parameters ==
We are collecting [[Milling Experiences|our experiences with different settings]] in this wiki, and some machine or bit manufacturers also publish tried & tested values that might make your life easier.
 
'''Keep in mind that other people's experience with different machines or endmills/bits is always just a starting point to dial in your setup!'''
 
Interesting resources for our [[WorkBee]]:
* settings for 1/4", 3-flute spiral upcut end mills by Carbide 3D
** [https://docs.carbide3d.com/shapeoko-faq/shapeoko3-materials/ pretty, but imperial values]
** [https://openbuilds.com/attachments/speeds-and-feeds-4-pdf.44334/ less intuitive format, but with metric values]


== Feeds and Speeds Calculators ==
== Feeds and Speeds Calculators ==
Manufacturers of quality endmills usually supply the tool properties you'll need to calculate the proper speeds and feeds with a couple of formulas. This [http://www.sorotec.de/webshop/Datenblaetter/fraeser/schnittwerte.pdf PDF by Sorotec ''(DE)''] explains it nicely.
Of course there is also software that can do this for you (please share your experience):
* [https://www.cnccookbook.com/cnc-feed-rate-calculator/ cnccookbook: "G-Wizard" calculators]
* [https://www.cnccookbook.com/cnc-feed-rate-calculator/ cnccookbook: "G-Wizard" calculators]
** commercial software - free trials for 30 days, [https://www.cnccookbook.com/gwlitesignup/ hobbyist version] costs approx. $80
** commercial software - free trials for 30 days, [https://www.cnccookbook.com/gwlitesignup/ hobbyist version] costs approx. $80
** online calculator only comes with values for metals
** online calculator only comes with values for metals
* [https://app.fswizard.com/ "Feed and Speed wizard"] web app
* [https://app.fswizard.com/ "Feed and Speed wizard"] web app
** seems like a neat tool for a metal ''mill'' but the '''spindle speeds (rpm) are too low for a CNC router'''
** seems like a neat tool for a metal ''mill'' but the '''spindle speeds (rpm) are too low for a CNC ''router'''
* [https://www.kennametal.com/en/resources/engineering-calculators/miscellaneous/speed-and-feed.html kennametal.com] web app
* [https://www.kennametal.com/en/resources/engineering-calculators/miscellaneous/speed-and-feed.html kennametal.com] web app
** also mostly useful for metal milling(?) - you'll need to know a thing or two about the [https://www.destinytool.com/speeds--feeds.html required input parameters like "SFM" or "IPR"] (depend on your material)
** also mostly useful for metal milling(?) - you'll need to know a thing or two about the [https://www.destinytool.com/speeds--feeds.html required input parameters like "SFM" or "IPR"] (depend on your material)

Latest revision as of 17:01, 8 July 2020

Calculating the proper milling feedrate ("travel speed") is crucial for successful projects and a long lifetime of your end mills. Check out this English tutorial.

Problems will occur if your speeds are too low or too fast for the given tool geometry and material, so it's not advisable to start very low and "sneak up on the ideal" like you might try when laser cutting. The proper combination of spindle speed and feedrate is especially difficult to dial in if you just guess around, costing you tons of time and material...

Example Parameters

We are collecting our experiences with different settings in this wiki, and some machine or bit manufacturers also publish tried & tested values that might make your life easier.

Keep in mind that other people's experience with different machines or endmills/bits is always just a starting point to dial in your setup!

Interesting resources for our WorkBee:

Feeds and Speeds Calculators

Manufacturers of quality endmills usually supply the tool properties you'll need to calculate the proper speeds and feeds with a couple of formulas. This PDF by Sorotec (DE) explains it nicely.

Of course there is also software that can do this for you (please share your experience):