I Bought A Minimill to see if they are Worth It

Tool collectors are vital in maintaining the time honoured tradition of irritating the beneficiaries of one's will.

Running larger equipment can give someone unreasonable expectations of what a small lathe or mill should do. Tiny horsepower and tiny machine means tiny cuts. I have found that having even small machines at home is super useful for DIY project. There are so many things that pop up that could use a spacer or a bushing, a custom over-sized key or just cleaned up on the lathe with a file. And once you have the machines you can use them make parts to make them better. Rock on tiny machine owners.

Got a mini lathe for by 18th birthday. About 5 years later having "basic machining" experience on my resume helped me land my current job where being able to fabricate an occational part on a mill or lathe is an asset.

I bought a mini lathe and found a new hobby: hotrodding my mini lathe! I learned how to lap and scrape ways, made and installed stops, saddle locks, quick release tail stock… the list goes on. Meanwhile, it was capable of really good work. Lest scoffers say I don’t know how well a good machine works, I worked on Hardinge lathes for decades. Clearly, these mini lathes are no match for a hardinge, but they are satisfying in their own right. It’s all about knowing your tools.

After my mini mill inevitably broke the gears, I had a great project for the lathe - making aluminum pullies to convert the mill to v-belt drive. Best thing I ever did for the mill. Now it's quiet, runs with less vibration and when I do something stupid, the belt slips instead of it blowing up the gearbox. SO much more pleasant to use. 100% worth doing.

Column won't hold tram ? Remove big nut, remove column, Measure holes and bolt diameter sizes, Get on lathe and turn down a sleeve to fit bolt. Make outside diam large enough when in position INSIDE the column in line with the bolt to be in contact with the two inner faces of the column. You will now be tightening the nut up to a solid column instead of tightening up to a hollow structure which can flex, loosening the nut.

2:25 Use aluminum foil for finetuning. It's about .001", so folding it over a few times can give a good range of thicknesses.

I started out with a harbor freight mini mill and mini lathe when I first got into machining and metal working.
I slowly graduated to slightly larger benchtop machines and ended up with a full sized gunsmithing lathe and a CNC mill.
When I retired, I sold most of my metal working machines thinking I'd no longer have much use for them; boy was I wrong.
I sold off my mini lathe many years ago, but I kept the mini mill all this time. I still own it and I still use it and, I just recently bought another mini lathe.
It's true that they require alot of tuning up to get them to run accurately; or, accurately enough for hobby stuff but, with a little experience under your belt that really isn't that hard to do.

Great video mate - funny and informative. The first mill I ever used (1975 as a 15 year old) was a Deckle FP1 and I had no idea what a milling machine even was until I used that. I went to trade school a few weeks after starting that job (an apprenticeship in Instrument Making) and was asked to make some parts as part of an exercise. They only had old well abused and worn out Bridgeports and I couldn't get a decent finish. I told my instructor "I never have this problem on the mill where I work." so he asked what type it was. When I told him it was a near new Deckle FP1 he looked shocked and replied "They let YOU use a Deckle?!" I felt privileged and insulted all at once.

I have a CX-605 as well, had it for a few years now. I fixed the "noise" issue by changing the gear sets from plastic to cast gears* (*little machine shop) and using a good high pressure grease cut the racket down with good results. I don't have a tramming issue, I think because I literally stripped the machine down scrubbed the packing grease off of every mating surface. I also have a CX-708 Lathe which has been working without issue, it too was noisy but changing the oil and adding Lucas Oil treatment to the gear box make an amazing difference. Great video thanks for the share!

Minimills are absolutely fine for hobby machining. The main issue you're going to find is that many of the issues brought up are probably with using it for business purposes in mind. As in when someone says it can't be used on steel I have always read that as them saying you can use it but the amount of time is not cost effective. I'd also like to point out that you had it go out of tram on the video and your final test was checking after a clean up pass? Not saying roughing will definately make it go off tram but you basically gave it the easiest tast short of using a 1/8" endmill. Tolerance wise you'll basically be okay as long as you're taking slow small passes and creeping up on it but again this is unnaceptable for job shop type work as it takes far too long. I wan't to stress that I have no issues with mini mills but just remember their scope is very limited.

What a great video. I have a hefty lathe and an equally hefty miling machine in my workshop.
Recently I helped a customer of mine set up a mini mill very similar to yours. We had exactly the same issue with tramming in both the X&Y axes. Once bolted down we had a go at milling some small blocks of alloy and steel, and I was surprised at how good it was.
My machines are capable of taking 3-5mm cuts in hard steel if need be, but on a mini mill or lathe that's impossible. Light cuts should be the order of the day. I found that on the mini mill 20 thou was about the maximum on steel, and about 40 thou on alloy
I think that a lot of people who slag off such machines are simply taking cuts that are too heavy, and all machines have a limit as to how much they can handle. A bad workman blames his tools etc.

When buying these machines, it is IMPORTANT to understand that all the castings are finish cut in one go.
Consequently, they are ALL warped.
When one side is cut, the stresses are released, and the metal changes shape.
After initial cutting, the casting should be left to warp, and then be final machined.
Therefore, the first task, is to determine the best datum surfaces to make flat, and then get everything square.
Ideally you need another milling machine, but I re-engineered mine with a surface plate, 4mm float glass, and a large variety of abrasives.
... It was a huge task.
Don't forget to 'grind in' the circular pivot bearing surface to the pillar.
This enables the pillar to be clamped solid.
Prior to assembly, you will need to add rigidity.
Add two bolts to the base, just past the '3 screw fulcrum point' on the pivot block, so that the base has four bolts around the fulcrum point.
The three screws, are almost inline, providing limited rigidity (considering the pillar and head, are flexing around the 3 screw fulcrum point).
On the pivot block, there is only space for two additional 6mm screws (so use hardened screws).
I added concrete to the pillar, to add mass.
Finally; cast a concrete base.
I embedded a pre-cast flat cement garden slab for the mounting surface, and rub ground the base to the slab.
This is a lot of work, but you end up with a proper milling machine for a cost of just £750
Obviously, having another mill, and a surface grinder, would make this work a simple task :)

Hello I am a full time machinist and it seems like these days the #1 question I get from hobbyists is "are these mini machines any good". The answer to that is "If you work within their capabilities, and if they meet your needs."
You gotta remember that a full time machinist is not a maker in a garage who can spend an hour making a single T nut by cutting off .010" at a time because they are doing it for fun. A machinist who wants to keep their job needs to be pushing the envelope of what any machine can handle. Most of us don't like standing there watching the machine make chips on a single part all day which many makers seem to be OK with. We want to get it over with and go on to the next thing.
So that is why they are unpopular with professional machinists. We look at them from a different mindset with a different set of expectations. They take up 75% the floor space as a Bridgeport and have maybe 5% of the capability. A maker would consider a Bridgeport to be a heavy duty large machine. A machinist considers a Bridgeport to be a small, light duty machine that is not very rigid, but is very versatile.
There are desktop mills out there that can take 3/8x1/2" cuts in steel with no problems. I would be interested to see if yours could do that and get any reasonable surface finish.

I have machining experience (and a much larger lathe and mill in my garage) and 15 years ago or so bought a Chinese mini-lathe and mini-mill similarly "just to see what they were all about." There are a wide range of opinions from "works fine for me" to "these can be viewed as a kit and you have to fix and improve almost everything." I think this variance is due to a variability in the quality machine to machine, and a variability in expectations. This is the first such machine for many and they don't know what a good quality machine is like. Others DO have experience and can spot the limitations and instantly realize why there is chatter when maybe there shouldn't be and so forth.

agreed. i have the harbor freight one and once i completely dismantled it, cleaned it, smoothed rough edges, lubed, assembled, and adjusted it, i have been getting excellent results. yes, you cannot take as deep a cut as on a $5k machine but then, you do not need 3 phase power and a huge space either. i would not use these for mass production business but they are perfect for hobby and small parts machining.

Toolamker for over 50 years (Well, I didn't START as a Toolmaker!). It warms my heart to see a newcomer such as yourself with such a positive attitude and the ability to address the small deficiencies in an inexpensive machine. One suggestion is to find a REAL Milling Vise rather trhna a Toolmakers vice.. (although for the work that you're doing, should suffice). In five years you'll be amazed at your skil sets. Keep on. There are millions of tools and parts that are well within your capabilities. Those Capabilities will only increase with time. Very nice.Best to you!

When I try to run my mini mill like I run my bridgeport I get crummy results. When I run my mini mill with responsible feeds, speeds, cutter size, and DOC for the machine, I get fantastic results in even very hard materials.
Turns out basic machining fundamentals don't care how big the machine is.
Keep up the great work!

I ran one of these for about a decade. Did tons of upgrades including stretching the Y axis, stiffening, and making it CNC. Sure X2 mills can make parts, but it has serious limitations. I regretted not saving a bit more to get a heavier machine with a couple inches longer travels on Y&Z.

I don't know much about machining, but I have a pretty serious background in electronic and physical/dimensional calibration. I knew right off the bat that you were going to get better results just from a thorough setup. It is also worth mentioning that over time parts will wear, and temp/humidity will change and cause variations, meaning you'll have to occasionally go back through the setup.

the best addition will be a stiffening plate at the back of the column, and then a 3 axis DRO - this will cost you about $ 250 in LED or about $300 in LCD, both with scales to fit your mill. I have made a polyVee drive myself and do not regret it - there are instructions on youtube and the internet as how to do it. Another tip I can give is to 'cap' the drawbar and give it a square end - a spanner is way more easy on the spindle bearings than a hammer to loosen the MT3 tapers, and a spring loaded spindle stop will be a nice addition too.

These machines are made by more than one company and the quality can vary. Don't buy from the cheapest supplier and try to get a look at the machines before you buy. Both the lathes and the mills are quite capable machines within their size limitations. The main thing I don't like on some of the lathes is where they only have a limited range of belt changes and rely on an electronic speed control. One idea to increase the friction on the tilting column would be to fit a paper gasket. This is also a useful trick to help a job have a good grip on the table or vice face.

glad to see im not the only one with the idea that tools are what you make of them not what they are out of a box.

I have both a mini lathe and mini Mill. Both have worked great. Recently I am creating an open view case for a Ford Escort Transaxle for illustrative purposes at car shows. Have had to cut perfect holes in plate steel for five bearing races. The mini Mill along with a rotary table mounted to it has done the job beautifully. The races fit snug with no play. When holding the race in the hole I can barley see any light coming through the circumference. All done without a DRO ( Digital Read Out). There's a technique to it, but once you get that down the holes are perfect. Nice thing also is when I cut a hole I also get a perfect circle of steel to make gears out of for a later project. It's not necessary to cut a center hole in the circle Plug but I do anyway. That way if I do use the plug for a gear it already has a perfectly centered hole for a drive shaft with no run-out. ALL DONE ON A MINI MILLING MACHINE! I will say this though...when I received my Harbor Freight mini Mill there was a broken wire in the switch box I had to repair to get it to turn on.

You probably did far more initial setup than 99.9 % of the complainers.

Much like the complainers you are describing, an entertaining time can be had by going to Amazon and looking for various mechanical things, and then reading the reviews. Not the 5 star, the one star reviews. This is where those folks that could break an anvil reside. One of my favorites, a simple plastic hang up hook for an old school telephone handset, the kind you would use in a factory or office environment where you wanted to put the handset up and safely out of the way, but not hang up the phone while you did something else for a moment. Obvious for what it was supposed to do, and it had two holes in it to mount it to some surface. It got a one star review because, "Did not come with installation instructions."

I have one. As benchdrill, its really good (compared to drill). As mill, it has several weakness 1) not stiff enough 2) power (electronic speed contol is weak in low RPM, not much torque) 3) size, its impossible to put parts under cutter because there is not enough room. But if you do small parts, its OK.

I've had one of these machines for about 20 years now. After using it for a while with the gear drive supplied I changed to belt drive (bought as a kit) and I think it was really worth the conversion, much smoother running. I find that it max's out at about a 10 mm (3/8") end mill or slot drill for normal cutting work (but usually stick to 6 mm /1/4") and 12 mm (1/2") for light surfacing.

Nice test, thank you. Your mill and your cutters would really enjoy some cutting oil though. 😊

Instead of making "soda can" shims, I would go to an auto parts store and grab a set of feeler gauges, take them apart, and you have everything from .001 to .100.

If you ever break the nylon gear, just 3D print a replacement. PLA works just fine. I havent broken the gear again. But it is a mechanical fuse. So im not worried if it does.

Best tiny machines imo have been a sub $300 3D printer, and a multiprocess 120/230 ESAB welder. Professional welder/fabricator turned local 396 ironworker apprentice. Looking to get a little millwright station like this in the future, this was a phenomenal video, thank you!!

These are quite capable little machines that have enabled a lot of home hobby machinists to have the facility of a mill and lathe at very affordable prices. There would be a lot less people able to afford to enjoy the modelling/machining hobby if it weren't for these cheap import machines being available.
Also worthy of mention is the point that great improvement in function and accuracy can be had with a bit of fettling and fine tuning of these cheap,basic machines.

You'd be amazed what I did on a tiny Unimat back in the '60s. I once made a new crankshaft for a model aircraft engine on it, using a bit of scrap axle shaft from a truck. Yes it took ages, but I got there. I have a bigger lathe now (4 1/2" Boxford), but I still use the little Unimat for really tiny parts.... the very high spindle speeds available are very useful when machining things often less than 1/16" diameter. Horses for courses. I have a light milling machine now too when I say light, it weighs 500kgs!) that is remarably capable. Geared head (a bit noisy) and 2 axis DRO. For the money it's a good machine.
You get what you pay for with machinery of all sorts, and the ultra precision machines are way beyond affordable for most of us. Any half way decent machinist should be able to work to closer tolerances than those on the machines he/she is using......

great humor, solid insight and great attitude! which all made for a great video, subscribed!

Had my mini mill now for many years. Mods- gas strut alongside the column to prevent spindle dropping, changed the gears for drive belt, both make it much nicer to use. Yes I use the jacobs chuck a lot for most things, accurate enough for what I use it for on daily basis.

The haters simply don't know how to adjust and tune their machines

In my opinion, a 'small' branded mill or lathe can be a valued asset to a garage/hobbyist's shop. At 65 I had more time to play with projects. Was intimidated by the thoughts of adding larger/heavier/costlier machines to my small shop. For a bit over $3,000 both machines were added to my workspace, positioned and secured by myself. Now instead of +/- 1/32 I can easily work to +/- .001. Tooling costs continue but it has all been worth it.

I just love the ti-83plus in the intro

I have had one of these for over 10 years. It works really fine for small work, helps to get a cheap DRO for it, since the scales are not any good. Mine is mk2 so I can use the same tools via adaptors as in my larger TOS and Aciera mill. Only use it for 2:nd op setups etc. In Al I have run a small boring head with excellent results. Modifying it with belt drive will give better results. I have always been amazed about the quality and precision of work many modellers do with these inexpensive machines. A skilled machinist can make great results with simple equipment. I would not use it with more than a 6 or max 8 mm mill though for best results. Make a small fly cutter instead. Also trammed and pinned mine permanently, never had the need to tilt the column. It is usually more precise and simpler to use angle blocks, a small rotary table or a sinebar. The vise in vise technique is very useful. I second taking everything apart when buying it and take some time to clean, debur, check and fix issues. I would suggest ER16 collets as a good match.

You're going to end up with a million subs. You've got what it takes: Great video and audio quality, top notch script writing, narration, pace, editing, humor. The whole nine yards. Thumbs and subs.

I have an older Mini Mill and Mini Lathe and I've found, as well as you, - the internet was indeed wrong. They've been extremely useful in doing small machining on steel, aluminum, and other things

You need to drill and ream a tapered hole to the base of that vertical column. Tram it level, then just drill and ream the tapered hole. Fit a tapered pin, tap it in, head square and physically prevented from drifting. French Huron Mills had this, great method....🤔😳😏🇬🇧

I follow the BerylCNC mantra of "light cuts" on any of this Chinese mini machinery. It's simple physics - the smaller the area of a given pressure, the higher the force on the material. So if you use sharp carbide and take a light cut, you'll push your cutting force up into the range of the "production machines". If you're making prototypes or one-offs, these machines can work great. Also helps to not trash up your good machines on sketchy jobs, so they are good for that too.

you won me over with the maker-v-tool collector bit hahah

I bolted mine to an old cast iron surface plate “14 x 14”, and replaced the motor & gears with an ebay digital sewing machine motor with speed control and reversing, transforming the mill, I have used it hard for 6 years and counting. Invaluable tool now.

The great thing about these machines is that you can improve them by making new components with these machines.

Thanks for looking into this!
As a scale model builder, I'm currently at that point as well and I want to get something that can work on plastic, but also brass and aluminium, like for internal skeletons on larger models to eliminate parts sagging over the years.

Hi mate. Just to let you know, At 7:37 you've missed noticing the small dial on your dial gauge, the tram is actually out by 100 thou.

The reason for 62.5 divisions is they are thousandths, and .0625 is half of .125 which is half of .250 which is half of .500 which is half of an inch. 16 full turns is basically an inch. So, a full turn is 1/16", a handy increment for many of us people down here in the country that landed men on the moon. If you have not the slightest interest in inch fractionals, or a particular cut is more easily expressed in thousandths as it usually is, then your solution can be an obvious and handy time saver, yeah. Super duper easy to do in Python or BASIC or whatever. I just do it on the fly in the Python environment, in an open terminal session, second nature to us Linux users. Divide the desired thousandths by 62.5 for whole turns and the decimal fraction of a turn, then multiply the decimal part back by 62.5 for the leftover thousandths that the dial is marked off in. You can also use the "//" or int operator and the "%" or modulo operator for the leftover thousandths. To streamline even more, use the builtin divmod() function. There are two arguments, the first being the distance in thousandths, the second being 62.5 or a variable with the value 62.5 assigned.
x=62.5 # ENTER. That sets the value for x. You can check it by typing: x [ENTER] and Python will return 62.5.
divmod(1253,x) # ENTER. 1253 thousandths for 1.253, x with value 62.5 assigned in the previous entry.. Don't forget the comma. Python will return a tuple, the first element 20.0 which is the number of whole turns, and the second being 3, the leftover marks on the dial. So 20 quick turns and then tweak it on over another 3 divisions.
Now, try it for 0.373
divmod(373,x) # returns (5, 60.5) and that is exactly two marks less than six full turns which is of course 3/8", so obviously the function arrives at the correct values for full turns and leftover increments to give you the desired travel.
My mini mill is marked the same way, and I much prefer it to metric goobledygook. YMMV, I know that there are a lot of metric fanboys out there who think inches are above their paygrade.
A reasonable level of accuracy and precision is possible with these machines. You have to do your due diligence in checking and tramming and keeping those gibs snug when they go slack from wear. So a little more work from the operator if you need something to be right on the money. Probably half of all mini mill owners could care less, and are cool with the nearest 1/128" LOL which is 7.8125 marks hahaha. But let's call it 8.

You should always mill in the same direction. This will compensate for any play in your milling table X and Y screws.

A hint on plunge or side milling on mini machines... Avoid adjusting for your next cutting pass while the machine is running. One can cut too deep jamming the machine. What I do is to turn the machine off and then pull on my Quill handle until the end mill contacts the surface. Then while I have a little pressure on the Quill handle I lock the Quill and turn on the machine. The end mill will cut in maybe 2 to 4 thousands and I then finish that pass. This eliminates doubts regarding backlash and I never have jammed the machine doing this. I use the same method side milling. Once the end mill contacts the surface and you feel a little pressure you know all backlash is gone. Just learn the appropriate amount of pressure. When first learning this method start with very light pressure and work your way up to where it works best for you and then lock that into muscle memory.

With the Mini-Whatever machines there seems to be a third category besides "Maker" and "Collector". And that is where the lathe itself is the hobby. I have been on the 7x12minilathe group forever and it seems the majority of activity is fixing this or that about the machines. Or making this or that accessory (carriage clamp, chip guard for the back side of the apron, and so forth). It is pretty rare that I see posts about somebody using the machine for an actual project.

Great video man. I'm happy with my combination bench top lathe/mill. i use it mostly for repairing metal and plastic. I really pushed the mill to the limit by making a anvil out of a rail road track. Only negative was i needed to repair the motor control board as the vibration shook some parts free. No problem im an electronic engineer. Everything works great again. Only thing i plan to do is reinforce the mill column so it doesn't move under load. That does cause problems on precision work with steel.

The thing about small mills is plastic gears and low toque. If you stay in parameters and use the correct tools you should be able to cut anything. I have a FADAL 4020, while not a comparison in capability it's more a difference of power. With 22.5HP of direct crazy torque to 10,000RPM with coolant, I can plunge a half inch into Inconel with a 6 flute Harvey II endmill quite fast. I can use the same mill bit in the minimill and machine the same metal, just a lot slower and with more passes or those plastic gears will shred. I have an ACRA knee mill which overall is great for manual machining, it's a Bridgeport style, I'd say truly learning to mill, these smaller machines will let you down a bit.

I've had a Seig X2 since around 2009 and its been a great little machine, if you can't fit anything bigger in your workshop but you need a mill its a fine tool.

I loved the "legal disclaimer." 🤣

Bridgeport Series 1 and 2 universal milling machines have heads that can be tilted side to side and forward/backward. While they can be knocked out of alignment due to hard use, these and similar milling machines have been heavily used by industry for decades. It's a given that any machine that offers the flexibility of a tilting head will need to be trammed in from time to time.

About 10 years ago I bought a Sieg SX2p - this is like the SX2, but with an larger table, and brushless DC motor/belt drive.
I got fed up cranking the x axis, so decided to motorise it. The cheap way was a stepper motor+driver+spare PC+linuxCNC. It worked great, but tempted me to do a similar job on the y axis. Once I had done that I got a large circular slab of aluminium for use as a high vacuum baseplate and trepanned a hole for fitting a diffusion pump. linxCNC meant I could mill a nice circle, but I still had to feed the zed axis manually. So, I CNC-d the z-axis. I then added an A-axis, and cut some gears.
A mini-mill is very useful in a home workshop, and can do many things so long as cuts are small enough. With CNC and a camera/display for monitoring progress while one relaxes in an armchair with a beer or La Tache '90 the cuts can be extremely fine, but relaxing (yes - I know from experience!).
But I have learned lessons - and am now returning crank handles to the axes - but using rotary encoders - to produce the intuitive feel of a conventional mill. I am doing the same with my lathe, and will be able to discard my compound and use CNC to do the clever bit.
As for tool collecting, taking up watchmaking has meant I have been able to collect all sorts of previously unknown tools - the latest being an vintage staking set.

I have used the Haas Mini Mill, and because of that, my expectations of what you were going to talk about were way off. That being said, I'm guessing your mill didn't cost $38,000.

Haha, I was practially halfway through my comment about the jacobs chuck. Good stuff dude!

could you use feeler gauges as shim stock?

I've had a mini mill for 16 plus years, don't do a lot with it but when I do, it gets me by. It's for small hobby type of work. If I needed anything larger or super precise, I'd go to a machine shop and have it done on a Bridgeport or similar. Don't expect the world from it!

why do you use imperial? it's 2024!!! and you're in Canada!!!!!!

Get a small brass or lead hammer to make adjustments by tapping. The rubber mallet has too much bounce and makes it difficult to judge the proper amount of force.

I got one of these a few years back and have been perfectly happy with it. Keep everything tight and checked and absolutely flood the gearbox with a decent grease. I think I even drilled a grease zirc in to it too.
Obviously I don't make things to exacting tolerances, but I fitted a cheap set of DROs to all three axis, a decent Collet chuck, and it does exactly what I want it too.
First jobs were making T-Nuts (surprise, surprise) and an Aluminium fixture plate among other things and it has performed extremely well.

I bought a mini mill (rebranded) from a local provider where I think they do some basic QC checking on the ones they order.
Mine is the exact same model as yours.
There's always an initial setup time in getting everything perfectly square although mine was dead on left to right (only .001" over the whole length) and only had about .004" front to back which was fixed by shimming under the tower where it connects to the base.
That was about 6 years ago and since then it has been invaluable for me in getting projects done, I use it also for my knife making sometimes and it's all around a great tool.
Just like others said, don't expect to be hogging off 1/4" chunks with a small mill like this. Usually i don't go over .030" if I want to remove material quickly. If not I usually just take half that if I'm not in a hurry.
But to be fair, you probably could get away with hogging off .060" with a quality face mill as long as you have everything else set up very rigid and the mill tuned to eliminate any play.

Ok. You've got me off my butt.
I have a 6" lathe I've had since 1975, but while the lathe is an old friend and has given fabulous service, the MILLING attachment is horrible.
You just convinced me to snag a minimill. THANKS!

Cool video and good points. I think the smaller machines are great for the home hobbyists and small-scale work--would the bigger heavier duty machines be better? I think so but not everyone has the space/budget/ & or electrical for larger heavier duty machines.

Ahoy Canuckian! Great video! My dad was a machinist post WWII before he became an engineer at U of Tarantah on the Canadian GI Bill (EX RCAF pilot-officer)-John in Texas

I bought a mini mill and it worked on everything I tried! I eventually made it into a CNC. Loved it!Also added DRO using digital calipers

This is a great demonstration of the capabilities of these cheap mini mills. If you're careful and patient, you can absolutely machine useful parts. Wait until you see what heavier machines can do!

I would argue that the only limitation is the size of parts you can mill, especially as we well know it's the type of cutter that you use which allows you to cut steel.

My brushless mill is super smooth and quiet, maybe I lucked out, I’m in Canada and got it at Busy Bee Tools, was able to tram mine super close too, almost dead on, as close as I need it for sure. I’m thinking same rebranded mill as other sellers have, anyway more than happy with it for a hobby mill. My lathe needed more cleanup on some rough edges, replaced a few crappy cap screws with good ones, spent some time with motor alignment and now happy with it too, w other the price to me for sure.

About 15 years ago my dad bought a mini mill and mini lathe from Harbor Freight and set em up in our empty pole building. Fast forward to now and we have 2 Haas machining centers, 2 Haas lathes, 2 grinders, employees, the whole shebang. We kept the mill to use for deburring parts and to remind us of where we came from. Didn't make a ton of money with them but they were able to pay for a bridgeport and bigger lathe then it was off to the races.

As a young man back in the 70s I worked as a production machinist, operating turret lathes, chuckers and cataract machines. This was pre-CNC.
One day I complained to my lead man that my machine wouldn't repeatedly hold tolerances required. He went over and ran a few parts, he then told me "It's not the machine, it's the machinist" He was correct of course and showed me why; I just wasn't concentrating, etc. The point is, these mini machines will produce good work if used within their limits. Be patient and don't try big hogging cuts, etc.

I had an Enco mini mill in my garage in the 80’s, used it for all kinds of hobby projects. Definitely sturdy enough for milling steel, but only after fine tuning/tightening up from factory assembly and not trying to hog all the material off in one pass. Wouldn’t mind having one again.

I bought a mini mill similair to this a few years back.
I was satisfied with it, mostly doing small hobby stuff.
Its capable of milling steel if you don't want to cut mm's in one go.
Unfortunatly the engine gave out, i had not used it very much and it was out of warranty.
One of the carbon brushes was detached from its little wire, thats were you see its the cheaper made stuff.
The carbon brushes were very hard to get, its a size that is not available at most suppliers.
So i bought something larger and custom fitted it.
It works but its not running smooth.
I found a replacement motor for a reasonable price and that is sitting on the bench waiting to be replaced.

I like my Grizzly G0704 Mini Mill and have used it for 10 years now. I upgraded the motor as the original sucked but that's it. These are not Hass or Mazak machines, and no one should expect similar output & function. Once set up CORRECTLY, which ALL mills require, is a decent for home, hobby, and small business use. I can continually hold .002" tolerance on large & smaller work. It does require lighter passes but depending on material, larger depth of cuts is possible. Same as any machine. I've cut wood, aluminum, hot & cold rolled steel, hardened steel, stainless steel, brass, bronze, and copper. Some mfg's have poorer quality than others but in general these are decent machines though remember they are not high end machines. More options are becoming available today which is great.

I have deployed to the middle east with a smithy all in one. Used it for 5 months as my only machine and cut everything with it. Stainless had to be light cuts but it was doable. My father is a retired machinist with 35 years in the industry and I am also a retired machinist with 25 years experience. Any real machinist will be able to make any machine work if they need to. I am planning on getting one of these small machines for at home.

Good video! I have the same mill and installed the Little Machine Shop air assist for the mill head. It included a new longer rack that increased the Z axis movement by about 3”, with about 1.3” of that in the upper direction if you remove the factory stop. When I removed the old spring mechanism it provided perfect mounting holes for a dro bracket. The Y axis dial has no thrust bearing but a hard steel washer made it every bit as smooth as the X axis. Finally, I used the nylock nuts from the bolts that held it in the crate to replace the double jam nuts holding the X and Y dials, making it much easier to adjust them.

I've got a Clarke Mini Mill, it's great. It cuts steel with no problems, just don't expect large cuts. My main tool is a 50mm 4 insert surface cutter, getting the right inserts for the material matters. 6mm and 8mm coated end mills will cut slots in steel in up to 3mm deep passes. My x and y calibration is 1.5mm per handle turn and 1.2 in the z axis, the only problem is the excessive backlash on the z axis slow adjustment. I've fitted a belt drive after breaking 2 sets of nylon gears. It does all the model engineering tasks I want from it.

I worked a place that had a mini mill. I Think it was from Harbor Freight. Once I put a Curt vise on it and got it dialed in. It's accuracy was 0.003" over a 10 inch cut on the X axis and 0.002 over a 6 inch cut on the Y axis and 0.001 on the Z axis. We cut aluminum, mild steel, stainless steel, and all kinds of plastic. If I could keep the people who did not know how to use it away from it, it did rather well for what we needed it for.

The issues I see listed sound like the complainers are trying to take too heavy a cut. These aren't huge CNC machines, they're made for whittling. Good video, nice demonstration of realistic expectations :)

And, after looking at some comments here, the gatekeeping continues. Seems to be consistent with another hobby i have. Many people seem to be pissed that people can do the same things on $600 machines as you can on $3500 machines.

I found that the main drawback of the small machine is column rigidity, not only side to side but fore-aft (from the perspective of operator). To fix mine, I bolted 1/2" aluminum plate to the machine column secured with 4ea 1/2" bolts to the column as well as with the column swivel nut/washer arrangement. Bottom of the plate has a stout aluminum 2x2" angle which ties the vertical plate to an additional 1/2" base plate to which the machine base is bolted. Space between the back of the column and the machine base is filled with a fitted aluminum plate appr. 1/2". Vertical plate holes are a bit oversize to allow tramming left-right. Tramming fore-aft adjusted with a shim. Decent finish when cutting steel with either fly cutter or 1/2" endmill at 0.025 depth of cut. Still stable and in tram after 5 years of use.
There are additional updates and tweaks - left-right-axis motor drive, air spring to balance the milling head, larger vertical motion wheel and more accurate single-piece milling head drive. Mechanical indicators on all 3 axes. Much better than original but not a Bridgeport. Alas, no space.

Just remember to explain to people, making they own Tee-Nuts, never finish the thread, all the way through. The studs, should stop more than a full thread, from the bottom of the nut. Simply because the amount of force, getting multiplied by threads, is enough to snap off a chunk of the brittle iron table.

I recently bought a Grizzly G0937 for some DIY projects, and to teach myself the basics of using machines of this nature. I've been training myself using brass and plastic before moving on to steels. Thus far, I've found the machine to be adequate for my needs, and I haven't ruined too much material during the learning process.

I got a mini mill free on eBay. They were offering a new mini lathe, with bright yellow picture on the box, some shipping damage to the box. Next to the lathe box in the picture was a plain brown box of possibly lathe accessories, identified only by a number. I looked up the number and found it was a matching milling machine! So I bid full list price for the lathe, won the auction for a little less than my bid amount, and sure enough received both the lathe and milling machine! As expected, the machines were stronger than the boxes and worked perfectly. I have made lots of good parts on my milling machine, using up to 2 inch carbide insert end mills in steel without any problem.

As mentioned below, I run my two small mills and mini lathe in accordance with what they CAN do, not traditionally influenced "expectations".
It takes a considerable amount of time to make what I need which is fine.
Eg: I don't refer to the graduations marked on handwheels, I measure as I go for example. Allow for a little slip slop slap here and there n bobs your uncle.
The odd critical fastener may drop out so have your threadlock compound handy and be prepared to stitch her up properly.

Go down to a workshop that repairs any form of heavy machinery & raid their replaced bearings bin & grab the large roller bearings. you want the rollers as they are not only all ground to the same diameter but also the same length, 2 or 3 bearings will give you different Hights as packers or spacers & usually for FREE !!!!!
Kiwi Rod

I have a Chester Conquest with 19.5" x 6" table & MT3 spindle which is similar to yours. I make lots of parts on it in steel, Ali, brass & plastics.. It is a very capable mill if used properly. Of course it will not hog off large amounts of material but for hobby stuff it is great. Thanks for sharing. ATB regards from the UK

I had one of these heavy-duty wood lathes and it was absolutely fine. I know not as precise but was a very capable machine.

I have a Harbor Freight mini mill and it has proven to be quite useful. I upgraded all the nylon gears (except the easy to replace intermediate gear) with steel ones after I accidentally overloaded it and sheared a bunch of the ones inside the gearbox. I also replaced the original spring loaded arm for the Z axis support with a gas spring support, which gave it slightly more Z travel. At some point I plan to convert it to CNC.

shims: fruit juice cans are thinner than soda cans - no CO2 fizzyness. beer cans are thicker than soda cans - more CO2 fizzyness. you have flexibility.

Forewarning: I'm not a machinist, I just took a lot of training for it at the same time as I went through getting a degree in CAD. That being said, just like with full-sized equipment, the biggest limiting factor is the quality of the components/build of the machine. There are definitely mini mills that are built well, and ones that are junk.
For example, I have a Grizzly minimill, with some upgrades done to it, and it has served me just as well for the smaller work that I do as the bridgeports that I've used in various shops for big work. Would I use it for production work? No, mostly because a full-size Mill is just built much heftier and so it'll do small to medium jobs with ease and without suffering the same level of wear and tear as a smaller unit. Just the nature of the beast.
But for shop work, like gunsmithing jobs or hobbyist/small size projects that I might have to do, the thing is way more than enough, holds the same level of precision as the big boys that I've used, and, with upgrades, has all of the features I need. The only thing i have yet to add that would be nice is an auto-feed.
Knee Mills and bench-top mills (minimills) definitely have their place, and they are a huge benefit for anyone that's getting started because they don't take up nearly as much room as a full-size, they're not that costly to get into, and they don't require any special electrical drops or anything like a full-size mill's 440v requirement.
So, as long as you're doing your homework, you're investing in a good quality unit, and you know what to look for, no reason not to get one.
One other thought on the subject: Before investing in any kind of a Milling Machine, check out your local community college to see if they offer any basic Machine Tooling classes. If they do, sign up for the basic one that covers how to set up and run mills, lathes, etc. to get familiar with the equipment. Also, look at the classes being offered and see if there's a common professor/instructor to all of the courses covering machine tooling. Those guys are usually experienced machinists, and when it comes time to consider a decent Knee/Bench-Top mill, they are an invaluable resource to ask questions of, such as what to look for, what information provided by reviewers and whatnot are legitimate data and what's misinformation/crap, and potentially even if the instructor might know of any good places that sell used equipment.
If you cultivate the professor as a resource, their experience on the machines will also mean they may be a good resource to help you figure out upgrades and source (or make) upgraded parts like bushings, bearings, etc. to turn an otherwise passable machine into a fully serviceable unit. Nothing beats experience in that regard.

The CX612 is the same mill with belt drive and brushless motor. Much more capable, quiet and smooth. Mine came with an R8 spindle so I use R8 collets to gives more vertical clearance and rigidity. I also made a T shaped bolt on plate for the back of the column to disable the pivot and stiffen things up. It can be removed if column pivoting is required. Except for the 62.5 thou dials I have been quite happy with the machine. The column stiffening plate did increase the working capacity quite a bit and reduced the vibration.
Cheers: BJ in Ottawa

I've been doing machining for around 5 years professionally, I've worked with vintage Cincinnatis, Bridgeports, VTLs, Gap lathes ,average lathes and mini lathes and many more i can't think of. I just recently picked up the harbor freight mini mill recently for the house, was disappointed at first but i realized the chuck was .017 thou out. After watching this and getting a new chuck it's not so bad.

I'm a machinist on a Emco Hyperturn 65 Powermill where I have to deal with all sorts of steel, aluminum, plastics and from time to time hardened steel.
Of course I couldn't run the same feeds and speeds on a mini mill or lathe 😆. Doesn't mean you can't cut steel on such small machines. You have to adjust everything to the size of the machine and you can mill/turn pretty much anything. For home projects such machines are awesome and absolutely capable

This is awesome, I'm glad I've found your channel. Thanks for the content!