To make the whole thing more rigid the powerhead can be stabilised otherwise it is too free to move and this movement above the guide board is transmitted .
Something like this which connects the bar clamp to the bar bolts makes a significant difference.
To tension the chain in the mill the bar clamp bolts are loosened (because the saw is still held to the mill by the saw bar bolts), the chain is retensioned and then the bar clamp bolts are done up
This setup is allows the bar to rotate (360º) about a pivot point at the bar clamp and was incorporated specifically to be able to start cuts in the middle of logs or slabs and makes all sorts of angled cuts.
The pivot can this be locked into place at any angle and I have made many cuts at all sorts of angles but not noticed any improvement in cutting speed using changes in angle less than about 45º.
Remember as the angle is increased this also increases the cutting width. At 45º the cut is 41% wider and it seems like these two factor cancel each other out.
It's only when the angle is great than 45º that I can notice any change in speed but this is only possible on very short logs that are not that much as long as the bar.
What a shallower angle of cut does help with is stability as there is more bar in the cut so it self stabilises and this can improve the finish.
This information was obtained from milling park furniture from logs where all sorts of weird cuts need to be performed.
The same principles about angles apply to alaskan mills
