How To Calculate Speeds and Feeds (Inch Version) - Haas Automation Tip of the Day
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- Опубліковано 26 вер 2024
- In the latest Tip of the Day, Mark covers an essential topic that every machinist needs to know, but that is confusing and often misunderstood: How to calculate speeds and feeds. In typical Mark fashion, not only do you get the formulas and a step-by-step method for doing the calculations, but also an explanation of each term and some great animations to tie it all together. Every student, machine operator, or aspiring machinist should bookmark this video!
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Machinists have possibly the best online community of any trade profession. I’m just an engineer dipping his toe into CNC but the vast array of knowledge that is masterfully presented on UA-cam makes me want to learn more than I will ever use for work. Thank you so much for contributing to the public education of machinists everywhere!
-Brett, 25
Machining and fabricating experience is probably the best knowledge a mechanical engineer can have along with their engineering training.
Well that's great cause 15 years ago the alot of the ole timers wouldn't teach the younger a guys shit.
Can confirm. Most of them STILL don't want to pass knowledge down. I had to deal with that for the first 10 or so years starting out. I don't know if they felt threatened by a younger guy coming up or what it was@@robertlawler1387
@@robertlawler1387 Why is that?
@@raulholliman2190perceived job security
theses videos along with the drill basics video is so nice for new machinists, you really explain things well,clearly and most of all this is everyday stuff you deal with! awesome stuff!
Another informative and entertaining video. Thank you Haas!
I’m not the worlds biggest fan of Haas, but this guy and these videos are awesome!
Formulas:
Speed:
n=(Vc*12)/(D*π)
n=spindle speed in RPM
Vc=cutting speed in sfm
D=diameter in inches
Simplifies to:
n=3.82*Vc*D
Feed:
Vf = Fz*Zn*n
Vf = table feed rate in ipm, F code
Fz = feed per tooth
Z = number of teeth
n = rpm
Cut width and depth:
Ae = radial width of cut (along x and y axes)
Ap = axial depth of cut (along the z axis)
Drilling:
Fn = inches per revolution.
Feed rate:
Vf=Fn*n
Thanks
I knew all this from my Tool & Die Apprenticeship. Never used it for 20 years now but still remember. We just use to go cutting speed X 4 divided by diameter. For regular machining it was good enough and a touch on the safe side. Then it's easy to do the calculation just in your head without using a calculator.
Extremely informative! Will definitely be referring to this video for any trainees.
honestly i have started my apprenticeship in machining earlier this year and this is freaking priceless! i have yet to come across one of your videos that was not helpful. Thanks a lot for these amazing videos
Thank you. Laid out VERY clearly. Only improvement would have been a PDF cheat sheet in the description. (I copied it all down to a notepad doc.)
vondeliusc - Done. Thanks for the comment! We added a cheat sheet, and a link in the description. We also added a link to our Haas Shop Notes, which has all kinds of wonderful formulas for machinists. Thanks again. - Mark, Haas Tip-of-the-day
Thanks Mark! Haas is AWESOME.
Great video you broke it down for the novice. Thanks
As a high school skilled and technical sciences teacher, this scares me because I'm afraid it will put me out of a job. I love these videos.
Alex - Never! At the High School level it seems like creating a spark, and exposing students to what manufacturing and engineering even are is the tough part. These vids are great supplements, but you can’t replace a teacher’s hands-on training, or enthusiasm. Shoot me an email at TOD@Haascnc.com, I’d love to touch base. - Mark, Haas Tip-of-the-day
You are the best.
0:24 Key Concepts-Formula to determine RPM-Establish feedrate.
1:13 Surface feet per minute versus RPM.
2:01 Pi.
3:14 Speeds-Cutting speed versus spindle speed.
3:45 We get our cutting speed in Surface Feet per Minute from the catalog.
4:25 Formula to calculate RPM explained.
5:29 RPM formula simplified.
7:19 Isomaterial classes to determine Surface Feet per Minute.
9:00 Example RPM calculated.
9:56 Feedrate formula.
10:48 Example feedrate calculated.
11:25 Cutting versus slotting. Axial depth of cut and radial depth of cut explained.
11:48 Matching feeds and speeds with toolpath strategies.
12:13 Drills versus endmills. Feed per revolution for drills-feed per tooth for endmills.
12:50 Completed legend. All symbols. All formulae.
13:50 Speed and feed calculator on Haas controller! Under "Current commands," then navigate to milling tab.
Puddin Tame nice! The time stamp after Pi though
Thank you for this video!!
Outstanding, very helpful! (I've been a manual machinist and always chose RPM and feed speeds based on general understanding of materials, plus "feel". Now as I'm transitioning to more CNC I see I haven't been pushing my tools hard enough!
Do the cbc really allow much faster than 500 sfm for carbide to medium steels , and is this cause the carbide is so much better or because of the ability to climb cut w cnc?
I had that same problem when I went from manual to CNC. When I first started I always thought the tool was going to break because of how fast it was going
Nice vedio . can be little imporeved by not travelling End mill when you expalin cutting speed. instead just rotate slow and fast at same spot.
thanks very much Hass tool for helping us.
Great video
Love the videos, I'm betting your audience is all grown up now! 😁
Sir u have become master for me
Dude looks like he carries his tools around in a guitar case.
Another great video. Info, presentation, and graphics make them enjoyable.
I think it's simpler to just cal based on chip thick per cutter tooth. Somewhat depending on z plunge too
Thank you sir may I have another. 👍🏼
Can you show chip formations and trouble shoot them for us? The speed and feeds are calculated correctly but I'm afraid of pushing the inserts to s1400 and f9.5 for a 1.5 inch index drill
Nicely done. Thank you.
can you do a video how to program G12/13 circle cutting
I like how you are holding overheated drill bit in your hands (I know its special effects) but that bit will be hot all the way around.
Estupendo video. gracias
Your the man
Excellent video.
great vedios bro
metric units please
Спасибо Вам за видео.👍
Why not program using G95 and just enter the IPR? This way if there is any bog in the spindle the feed will automatically slow to compensate. Saves on tooling.
I agree G95 should be default on all milling machine controls. Then you can tweak SFM with speed override without changing the chip load per tooth. G94 requires re calculation of IPM and a program edit. I have been programming this way for the last 40 years
How do you determine depth of cut once you have done this? Do you assume you are using the entire cutting depth of the flutes? I know he said about ap and ae and that slotting should 25% less. But 25% less of what calculation?
So how would you figure out what sfm I would use if I have HSS endmills that I didnt get from a catalog with vc?
This is awesome! Great information presented very clearly.
It would be nice to have the formulas written out in the description.
Also, can anyone recommend a good app for speeds and feeds?
Bill Herreid look up machinist calculator it’s a app
Thanks Man. good video.
that rock guy ,two thumb up
I cannot find information on the feed per tooth. I've looked up an end mill and tried to find documentaion on that and am having no sucess. Am I looking in the wrong spot or what am I missing here?
Another great video. From a brother with the same hair do.
thank you for the videos. please add turkish subtitles to all videos
What I don't understand: Aren't you measuring absolute with relative? Does it matter if the indicator shows +/-0.01mm or +/-1mm, the idea is to get it to show +/-0? To measure absolute in Z you could use a "vertical caliper"? I only use the indicator "to chase the zero", I use other tools for measuring...
Thanks, Mark, very useful! I didn't find videos about turn speeds n feeds, could you please to make same video about it, it would be very useful!
Medegma Gongorovna they are the same
Plz discuss with ap and ae
I feel like im going to sound really stupid, buuuut could you do one for lathes? I'm really new (less than a year) and i was trained to do this formula for lathes. Just the number of teeth is 1 because a lathe has one cutting edge.
The older guys tell me SFM calculations are a myth and aren't real. (I understand there are variables and they are a starting point.)
But then im getting that this is the wrong way for a lathe, and a lathe feed rate is calculated as fees per rev. But the informative im finding on this seems a bit strange. Feed×RPM=Feed Rate where would i find the "Feed" value?
If its based off of tooling catalog information, im not provided this at my shop.
Thanks! Love the videos! ❤
ok good- NOW can you use that formula IF your dealing with tubing?? (not a solid material)
Would anyone by chance know what the name of the catalogue he is referring to at 3:46?
I have tried searching Haas vf2 catalogue > Mill Interactive operators manual but does not show the same chart
Question from a newbie: the formulas don't contain extreme variables that are all over the place. There is only a few number of diameters available, 1/8, 1/4, 1/2 etc. Rarely anyone uses a 4 or 3.68 inch diameter endmill, if it even exists. Also, you can't find a 17 flute endmill, but rather 2,3,4 (5 and 6 maybe?). Why does it seem that everyone needs to calculate these numbers or look at a chart so often?
There are plenty of other sizes out there, metrics, customs, inserted tooling, drill bits, etc. Inserted cutters can come in literally any size and can have any number of inserts, and often have prime numbers of inserts to reduce the effects of chatter.
Screen shot at 13:00
PDF FILE have only this Frame
One page 3 formula
Cool animation🤗
Wonderful
What would the material group be for composites like carbon fiber or plastics?
Hello sir, i have small doubt what is different between this two formulas
Vç=πDN/1000
Vç=πDN/12
I do love this video as it's very easy to understand and you explain it very well. I have a question though. I have a cnc router and want to do some Aluminum work with it. I don't have the luxury of using a formula to get my spindle speed as i'm kinda stuck with a variable speed dial on a Makita router with a min/rpm of 10,000. Is there a formula for figuring out how to safely run a tool at a specific RPM?
Plot Twist - I have not CNC, VMC
But I subscribe
I know speed feed for core drill
Which drill from dia90 to dia 143
Having 6 insert
R5 two inserts at dia90 and another tcmt16 4 inserts cover the face 90 -143
Sir,
Kindly mail me the details on this address abhi.dha1993@gmail.com
Material is cast iron
I want to carve stone. But the charts are all for metal types. Is there a chart for stones?
Stone chips, I would assume a mill isn't a good idea for it
Where can I find the tables of cut values and tool advances, the one you mention at 13:20?
Steeltec Mexicali machinist handbook
Sir you r great
Anyone have some info on with or with out coolant?
Hello.. I need the tool manual u used. I'v searched for it and no luck with it..
What about the lathe version? Thanks!
Hello, thank you for your jobs! Can you tell me how much SFM for 6061 aluminum ( carbide endmill)? Thank you a lot.
What bit is best for engraving on stainless steel 1/32" deep and 1/32" wide?
Sir, which better app we should use to calculate feed rpm for tools
I started using FSWizard app, so far I have yet to be disappointed with it. For turning though, I still use manufacture recommendations.
Hi mark how can I calculate my feed and speed for lathe
Does it change based on depth of cut?
Why you are not mentioned mapal
Hello, where can I find the Vc cutting speed material groups chart and cutting speed fz, do you have a link I can download, Thank you very much
Call Nates Industrial Tools in Los Angeles!
Could we get one of these for lathes?
Ryan - We just put it on the list! Thanks for your comment. - Mark, Haas Tip-of-the-day
Was gonna ask the same
isnt it just the same only you don't use Fz for feed and use Fn instead?
So I'm being stupid, if the machine can't handle high rpms, go with the lower grades on the tools? This is for both lathe and mill, having a limit on tool diameters, trying to figure this out
It's a good question. If you are running nothing but Ø1" diameter tools on Titanium, you wouldn't need a fast spindle, because you will never be running at high RPMs anyhow. If you are running small tools on aluminum, you will want the faster spindle option. And yes, if you a manually mill with a low RPM spindle, there is no reason to buy expensive tools with crazy high-temp tool coatings, as you really wouldn't see a lot of the benefits.
So at that f/s is -.25, really a good depth to cut at??
Could i possibly speed up the feed if i bump up the rpm but still have a matching feed per tooth ?
We can definitely do that. Check out this video that goes into the details ua-cam.com/video/toqE6HqQEsQ/v-deo.html
What is that catalog called for the sfm and where to get it?
If a manufacturer-supplied feeds and speeds chart doesn't give speeds and feeds for wood, and the material you're cutting is wood, can you just use the information for aluminum (or plastics if available or non-ferrous materials if available)?
bds - I haven’t cut enough wood to be of much help to you, but for the wood I have cut, I started with feeds and speeds for Aluminum and worked my way up, just like you said. With the correct tools for wood (router bits, etc), you can basically run at max spindle RPM most of the time, but you’ll need to check with each tool supplier. - Mark, Haas Tip of the day
@@haasautomation Thanks so much for your reply and for making this video! I will give that a try!
Wow, I need to watch that a 2nd time.
Is these speeds and feeds just with coolant? What about no coolant?
For most tools, we are referring to Speeds while running coolant. Some tools, with special coatings like TiAlN, and AlCrN can handle very high temperatures (1100 ° C), and run just fine without coolant, but even those tools will likely give us better surface finishes if we run coolant. The manuals will usually tell us if we need coolant or not.
are these different for single angled cutters
ISM 62 - Its all the same formulas, we’ll just use “1” for our number of teeth. So, if our single lip engraving cutter is meant to run at .0005” per tooth, and we are running 12,000 rpm, then we just run .0005 x 12000 = 6ipm. Hope this helps. - Mark, Haas Tip-of-the-day
what happened to 4 x sfm divided by tool diameter for rpm ? So much simpler.
That will definitely work. A more exact formula is (3.82 x SFM)/Ø, but these are just ballpark numbers anyhow, so using '4' instead of 3.82 is almost always close enough. Great comment.
Why do cam softwares generate massive g code files when i can mdi the code necessary to make the part and it takes 5% as much code. Im still new and havent realy taken the time to compleetly analyze the cam output.
We use mdi just to do a short thing. May be two or five lines of programming. Cam is not always the best choice. Sometimes is better to program next to the machine by hand. Start doing your own jobs and you will know your how to make the choice.
Because cam software uses programming rules that are generic and work, but with computer programming knowledge and understanding, and applying to your specific needs and situations, you can customize the post processor to better fit and more efficiently spit out code that works for you. I use FeatureCam, as an example, and am constantly tweeking the post processor files (rules) to help eliminate unnecessary and machine memory wasting code.
08:12 - How do you keep this tool in hands? It should be really hot, isn't it?
It was cgi
Seriously, if I buy a Haas VMC... will haas teach me how to use it?
AFKA William Devane - That is a question that a Salesperson would love to answer. Dealers, Haas Factory Outlets, handle this in different ways. Many offer training classes on the use of the machine, or offer discounted on-site training. Track down your local dealer at www.haascnc.com/about/contact.html and see what they say, or shoot me an email at TOD@Haascnc.com and we’ll figure something out. Every HFO has trained Haas Applications Engineers, like me, to help answer questions. And, we have some great manuals and online videos! - Mark, Haas Tip-of-the-day
which app use for calculating speed and feed
I recommend the Phillips Machinist app.
What is vc 1000 how to put that is ??
Cool video! But how do you do all this on a lathe?
I always have a hard time finding out how to use sfm on a lathe. I’m a pro at mill calculations, I get lost when calculating fees rates when turning parts.
You just type in your speed in rpm's(G97) or surface speed (G96) and then your feed in inches/rev. or inches/minute(not usually used in lathes)
What is the app?
3.82 x sfm. ÷ DIA = RPM
G97S[3.82*SFM/DIA]M03
G97S[😂3.82*270/.75]M03
#100=.750
#101=270
#102=3.82*#101/#100
G97S#102M03
tool part number is sd99-200 why did you take sd99-0750
I asked sir i want 2d programmings pocket n interpolation
Where can I get that chart from?
KIDROBOT4 - We just now added a pdf of the formulas. The link is now in the Description. Thanks for the comment! - Mark, Haas Tip-of-the-day
smaller tire turning faster when biger
9:00 you couldn't break everything i learned easier.. it's always 3.82 x sfm or i guess these days Vc, divided by tool diameter
I can't tell if 8:21 was sarcasm or not lol
sir how can i know cutting speed
Did you watch the video
Christopher Jensen depends on what speed you want , Feed or RPM Spindle Speed
Can anyone recommend some good apps for Android?
I have HSMAdvisor, called FSWizard on a phone. I think it's very capable and robust in its capabilities, and worth the one time fee.
@@MarkWesley -- Thanks Mark, I downloaded that app yesterday but haven't played with it very much.
@@Raptorman0909 I think the free version only gives you one material or so. The full version gives you many kinds of materials, too many to list. I think only once I couldn't find what I was working on - Tellurium Copper. We use this app at work, helps out a lot, but the feeds and speeds are to help you get into the ballpark. Consulting your tool magazine/rep is the most accurate way. Still a great program and I use it daily at the machine shop. Good luck!
@@MarkWesley -- OK, I was looking at it yesterday and saw it was limited in that sense but I guess they want you to pony up for the full version.
japan would = kisama!
Merica!
FUCK YEAH!
I am a subscriber to South Korea. May I ask you to add Korean to your subtitles? I beg you very much