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  1. #1
    Hello,

    I'm new to CNC and am currently planning my first DIY CNC build. I have many questions as you'd imagine but i'd really appreciate any help you can offer!

    I plan to use a 2.2kW chinese spindle, which i believe has the power to cut steel (does it?):

    http://www.ebay.co.uk/itm/2-2KW-WATE...3D181806514041

    I get the impression that with the right kit, it's not TOO difficult to cut aluminium parts on a DIY machine. By the right kit, i mean anti-backlash nuts for leadscrews and rails/ bearing carriages for linear guidance. From my research these are the best options for good overall stiffness on a budget.

    I've seen videos of people cutting STEEL on these machines, which i'd love to do. I get the impression that the main design criteria for cutting harder materials will be the stiffness of the rig, however i'm not sure about how to calculate the required stiffness as I can't find a reliable way of finding the maximum force on the cutter. I have access to FEA software, so if i knew the forces involved, i could get a good idea of what i'd need of the frame. I won't be cutting steel all too often, and the spindle is quiet, so I don't mind if I have to feed extremely slow or take super shallow cuts.

    I don't want to just over engineer the hell out of it, although it's a tempting option, as I'd like to keep the price down.

    I've attached a picture of my design as it stands, in case you're interested. Let me know if you've any ideas to easily increase the stiffness. The plates are 1/2 inch aluminium, the ally profiles are 40x80. This gives a 300x300 cutting area 100mm z travel.


    Summary:

    How can I make my DIY CNC build cut mild steel? (even if only super slowly)

    What are the main design considerations for cutting metals?

    Are there any ways to improve my design without killing the budget?


    Any and all help greatly appriciated!

    Best,

    Luke
    Attached Thumbnails Attached Thumbnails Click image for larger version. 

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  2. #2
    Hi Luke,

    I see you have been impressed by other peoples videos where they cut steel on their routers. So lets cut the crap- the answer is:

    If you want to properly cut metal- buy or make a proper metal cutting machine.



    Detailed, i write this down for the benefit of others in the future that drop here with similar questions:

    -with the machine you have drawn would be next to impossible. Forget aluminum, all need be steel, all needs to be braced in all directions, the thicker and the heavier-the better. You could use aluminum, but must be reinforced with steel.

    -The spindle.
    There is cutting, there is what we call scratching. This spindleis NOT made for cutting steel. Means bearings will fail at one moment. These bearings have 1 year life if machine working 8h a day. Thats what Chinese manufacturer states. And that routing wood. Many people, including myself have used them much more and on materials like aluminum.

    The ideal spindle for a small machine to cut metal is the BT30, coupled with pneumatic release for tool change and belt driven by servo motor. Thats about 2000$ from China. If you weld and have a machine shop you coul dput together a frame. They /China/ sell a very nice VMC frame for that setup but is expensive. Thats one of the reasons you will not see many DIY mills in forums. Cause its cheaper and better to buy and retrofit old mill.

    -the power needed
    One thing worth noting is that yes, if you have very sturdy setup, use small bits, have rigid table, proper cooling and calculate properly speeds and feeds you could machine mild steel. I dont see how thats to happen if you dont use some software like HSMAdvisor or Gwizard to finely calculate what exactly you are doing. From there you will see the forces involved and the power needed to do that.

    I myself use HSMAdvisor, inside there is an profile of 3kw 18k rpm spindle, use that to see what happens. I highly recommend getting the 3kw versus 2.2kw for metal.
    Have in mind that most spindles use all ceramic bearings or partly. There are dedicated high speed spindles for metal that cost more and they say with better bearings. I have no info if thats reality or Chinese tricks.


    -the machine design
    So yes, if you go that way, its better to have the gantry fixed. Do your research and see build section in forum. There are discussed machines exactly made for what you say.

    -me personally
    i would buy me a small mill or retrofit big one. I in fact am just finishing a very sturdy build that could definitely do that what you want, but dont plan to f__k my spindle cutting steel

    Hope that helps

    PS. below a snip from HSMAdvisor, As you see spindle power is not the limiting factor. it would be the stiffness. sliders are adjusted for standard stiff machine/ mill/
    Click image for larger version. 

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    Last edited by Boyan Silyavski; 25-02-2016 at 05:22 AM.
    project 1 , 2, Dust Shoe ...

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  4. #3
    Sven's Avatar
    Lives in a, Netherlands. Last Activity: 07-05-2020 Has been a member for 7-8 years. Has a total post count of 46. Received thanks 4 times, giving thanks to others 0 times.
    You can also opt for building in epoxy concrete (often called epoxy granite).
    And yes, you can use a chinese spindle but the bearings have to be ok.

    A guy close to me built an epoxy concrete machine with a chinese spindle (I think 2200 watts but up to 18000 rpm) and can easily mill steel, to about 200s of a mm.
    He used old servos but you can get simmilar results with closed loop steppers.

    Have a look over here in a dutch thread (maybe use google translate):
    http://cnczone.nl/viewtopic.php?f=8&t=8410&hilit=epoxy&start=406

    Here it is

    Here it is in action, steel 12000rpm, 4500mm/min feed, 15mm doc, 0.5mm, at long life settings:


    He says he can also do 20000rpm en 9500mm/min but that is no good for tool life.
    Last edited by Sven; 25-02-2016 at 08:19 PM.

  5. #4
    Thank you both for your responses.

    After further research, I agree that the easiest way forward for me is to buy a small, cheap manual mill and convert it to a cnc machine.

    I found this on Ebay:

    http://www.ebay.co.uk/itm/Proxxon-MF...YAAOSwHjNV-BT2

    And here's a conversion:

    https://www.youtube.com/watch?v=iVYIXzO6UtI

    Couple of questions:

    Firstly, does this look like a rig that could cut steel to any degree of success?

    Secondly, I know that manual mill can have quite larger backlashs. Will this be an issue in a CNC conversion and how can it be overcome?

    Many thanks,

    Luke Blades

  6. #5
    Here is picture of a mill, it's a Bridgeport - the most common mill ever made i think, I have one just like it. It's 1100kg of solid cast iron and has a proper 2Hp motor on it.

    It is capable of milling steel, but will only take relatively light cuts due in most part to it's versatile nature - the head can swivel, rotate and tilt, these are great features but make it weaker when it comes to real milling.

    Steel needs lower speeds and more power, yes it can be done with high speeds but you can expect short cutter life and you will only be scratching away the metal.

    Click image for larger version. 

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    That being said, I am building a gantry style CNC machine and fully hope to be able to do fine milling in aluminium but nothing tougher, i am looking at cutters of around 2 - 5mm diameter.

    I really would look closely at what you need to achieve but steel milling is going to be a tough nut to crack.

    Conversions can be done, plenty of Bridgeports have been CNC'd - ball screws are a must and a good machine as a foundation is a big help as lot of them have had a hard life.

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  8. #6
    Don't touch that Proxxon if you want to mill steel. That Bridgeport would easily mill steel and cast iron, with quite heavy cuts, that's why they were probably the most common mills ever made. I have a Myford VMB which is a lot smaller than the BP put I can take say a 1 or 2 mm cut with a 12mm cutter in mild steel with ease. There are lots of smallish mills that will do similar, look for example at the SX3 from Sieg. This is available in slightly different forms from several suppliers such as Arceurotrade and Axminster. There are also similar machines from the likes of Warco and Chester. These can be converted to CNC, and especially the SX3. It is best to use ballscrews to replace the normal ones to get rid of backlash. I



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  10. #7
    I'd love to get myself a bridgeport or a SX3 but i have neither the money nor the space.

    I'm looking for something <£700 which will leave me some room for tooling etc.

    Thing like the:
    SX2
    Warco WM12

    You guys have any idea as to the best way to go for a mini-mill that can be converted to CNC and cut small steel parts?

    Luke

  11. #8
    I have seen nice converted mini mills go for 1000-1300. So meanwhile save some money. Your best bet would be to buy already converted machine from somebody who wants to upgrade.

    But for 700, i dont see how that would happen, se better be real from the beginning.


    What pieces are you exactly trying to achieve? i mean, what would be the typical job on the machine?
    project 1 , 2, Dust Shoe ...

  12. #9
    I got a Novamill without its electronics off eBay for £610, built the electronics for less than £200 using 2m542 drivers, BoB and PSU from China. The Novamill is about X1 size but a different league for quality.


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  13. #10
    The SX2 from Arc looks quite nice. It has a better table than the standard X2, basically the same as they supply on their version of the X1. You can also get it with an R8 spindle, R8 collets are economical, grip very well, and don't incur the overhang of an ER type collet chuck. And they don't get stuck! I think quite a few people have done CNC conversions of this class of mill including fitting ball screws. Another point about CNC is that since you don't have to stand around twiddling feed screws, the computer can take multiple smaller cuts so machine rigidity isn't maybe quite so important.

    I started off a conversion of an X1 with this table, in the end the Novamill came up so I sold the X1 to a friend in manual version. It was clear that one could fit ballscrews, but you need to design the bits carefully so you can make them on the manual mill then just fit them whilst it's in bits. Also be prepared to at least fettle and possibly replace the gib strips, I made new ones from brass.


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