- Joined
- Dec 18, 2022
- Messages
- 2,614
Sweet, That is awesome. Did you just get a base package?
Sweet, That is awesome. Did you just get a base package?
Thanks!Sweet, That is awesome. Did you just get a base package?
Congrats on your new mill day! About the perfect size for your workbench. Did you coat the bottom of your vise? Galvanic corrosion under the vise is not uncommon. Teflon based grease to inhibit this. Nothing more deflating than to remove your vice and see a patch of corrosion under it.It has landed!!
I’m wondering if the oiler may have a leak, however, everything else seems awesome.
X has .002” of backlash, Y has .006” of backlash, and X has .003” of backlash.
It was caked in that greasy stuff so I cleaned everything I could find and oiled all of the axis screws.
View attachment 506854
Congrats on your new mill day! About the perfect size for your workbench. Did you coat the bottom of your vise? Galvanic corrosion under the vise is not uncommon. Teflon based grease to inhibit this. Nothing more deflating than to remove your vice and see a patch of corrosion under it.
The galvanic corrosion was nearly instantaneous between my shiny new mill and new Kurt vise earlier this year. Now I remove the vise after each use.
Way oil won't stop the galvanic corrosion even if you drown it in oil. I had drown mine in Vactra #2 way oil to no avail. It's anode/cathode electrical corrosion hence the Teflon to inhibit the transfer of electrons between the two metals. Teflon is an amazing electrical insulator. I had some trying to get going between an aluminum DRO scale and the back of the mill table. I found it when I removed the scale recently to transfer it to the front.Thanks!!
I just trammed it which was rather annoying. It took me 6 or 7 times loosening, tapping on the head, and then tightening the head again to get it within .0015” measuring about 16” apart with 1 point in the front of the table and the other on the back of the table using Blondihacks method. The one but being up in the hole on the bottom is a pain too.
Hopefully that’s close enough and I’m not missing a simpler method?
I did coat the bottom of the vise in way oil but I have many different kinds of grease I could use as well. It has to come off again once I get the correct bolts for the table so I’ll see what I have around. Thanks for the tip!
Way oil won't stop the galvanic corrosion even if you drown it in oil. I had drown mine in Vactra #2 way oil to no avail. It's anode/cathode electrical corrosion hence the Teflon to inhibit the transfer of electrons between the two metals. Teflon is an amazing electrical insulator. I had some trying to get going between an aluminum DRO scale and the back of the mill table. I found it when I removed the scale recently to transfer it to the front.
I use a Starrett spindle square for tramming, it's so much easier. There are cheaper China knock offs of the Starrett spindle square, I think Edge makes one.
Yes you zero on a known flat surface, the mill table will likely suffice until you try tramming to within 10ths of a thousandth. Then chuck the spindle square into the mill spindle. Then you can easily check how far out you are left/right and front/back, and more importantly use the indicators as you adjust/tighten. With a single indicator ugh that's annoyingly slow. Perfectly trammed both indicators would read the same.I’ll add some grease to avoid that then as I definitely don’t want my shiny new mill to rust.
Am I thinking that with that device you set each indicator to 0 on the same spot on the bed and then adjust from there? I’ll Google it as I wonder if a printed one would work in that case.
Davidpbest (member here) has a really good video explaining how to tram a square column mill and he has some literature which is worth investing in full of useful information. To really get accuracy out of it you need to first check the column, then the head nod, then the head rotation. Like my 940, if your column and/or head nod aren't true you'll need shims while the rotation is adjustable. You will also find this to be very useful.I’ll add some grease to avoid that then as I definitely don’t want my shiny new mill to rust.
Am I thinking that with that device you set each indicator to 0 on the same spot on the bed and then adjust from there? I’ll Google it as I wonder if a printed one would work in that case.