G’day Tom nice work, but why only 16mm for the arbor, why not larger, less machining and a stronger shaft to reduce any possibility of vibration ? Cheers Peter
G'day Peter. Well there is a reason why that shaft on the arbor is only 16mm. You see my milling machine only have collets up to 16mm so I guess I just have to adapt to this fact. You are by all means right about that a beefier shaft would be stronger and reduce any possibility of vibrations, but what can I do besides to adapt to my milling machine requests? Thanks for your input and of course thanks for watching. Cheers.
Always enjoy and learn something from your videos.
Thats nice, thanks for stopping by.
Another great video. Thanks Ben.
Ben, thank you.
Nice job 👍🏽
Thanks Jamie.
G’day Tom nice work, but why only 16mm for the arbor, why not larger, less machining and a stronger shaft to reduce any possibility of vibration ? Cheers Peter
G'day Peter. Well there is a reason why that shaft on the arbor is only 16mm. You see my milling machine only have collets up to 16mm so I guess I just have to adapt to this fact. You are by all means right about that a beefier shaft would be stronger and reduce any possibility of vibrations, but what can I do besides to adapt to my milling machine requests? Thanks for your input and of course thanks for watching. Cheers.
Very nice instructions. Newbe to your channel, will come back often, Bear
Thanks, glad to have you on board :-)
Way too many rpms for the end for the flat bottom drill and probably the end mill too?
Yes probably 430 rpm was a bit to high, to get lower rpm I will have to use the back gear. Thanks for watching.
I've never seen a slitting saw without a keyway in it. So all the driving comes from the friction clamping and not a key.
None of mine have slitting saws has a keyway. Yes you are right all the driving comes from the friction clamping.