No Worries Zak
I see why the SPA and TCPA are so rarely talked about.
SPA I agree, but TPCA (or "hook") should be talked about a bit more than it is.
And just to confuse you have a look at this.
The TPCA works in conjunction with the raker depth and together they determine how deep the cutter rocks into the wood lifting the chain off the bar before chain tension snaps the chip out.
In other words together they determines the size of the chip bite and hence cutting speed.
This pair of cutter parameters also determines how much the saw self feeds.
Too much of both and the power head will just bog down.
Too much TPCA and not enough raker depth will make a lot of dust and not feed
Too much Raker depth and not enough TPCA may still feed but will make a lot of vibe and will more prone to kickback, although kickback us not relevant when milling.
To get a saw that cuts fast and self feeds requires a bit of fiddling of the raker depth and the TPCA.
The other thing that the TPCA affects to a small extent is how quickly the chain goes blunt - to small a TPCA leaves less metal supporting the Cr cutting edge allowing it to break off easily. Slightly higher angles leave more metal behind supporting the edge, In really hard wood it may pay to raise the angle slightly, you will get more vibe bfs
Most folks just set their grinders and rakers to the manufacturers spec. TPCA and raker is arrived at by manufacturers assuming an "average" size bar and power head so the chain does not not make a lot of vibe and minimises the possibility of kick back. In theory a lower TPCA can be used on a larger power head especially On most chains except square ground chains and ripping chains the recommended TPCA angle is 60º.
On Ripping chains the recommended TPCA is 50º but Will Malloff who mills withe an 090 recommends 45º!
Not many operators who use files know how to change the TPCA with a file especially when using just a file does not even file a flat surface.
In fact talking about a TPCA as a constant/fixed "angle" is somewhat meaningless as the surface is a circle and so not a constant angle anyway.
This is why I prefer to use the term "hook" - a general term that takes into account how "pointy" the cutter edge is.
More "hook" means more "pointy".
The hook is changed when using a file, by slightly changing the amount of file that shows above the cutter.
In the image below the LHS red circle show how lifting the same size file slightly above its previous position reduces the hook.
The circles on the right shows how when at the same position relative to the top of the cutter, increasing the file size increases the hook
Changing the vertical position of a round file just slightly and consistently in an already shaped cutter is very hard to do by hand and is why I use an Oregon type file guide for all my touch ups.
Using a file guide also allows for the use of "different size files" in "file guides designed for different files".
Using a file e.g. a 3/16" in a file holder designed for a 7/32" file, this lifts the 3/16' file slightly further above the cutter edge and reduces hook.
Using a 3/16" in a file holder designed for a 5/32" file, this drops the 3/16' file slightly further below the cutter edge and produces more hook.
Unfortunately there are not a lot of file sizes and file holder sizes to play with and, for example, there is no Oregon type file holder for 13/64" files.
Pferd does have a 13/64 holder but it also includes a second file that does the rakers and it does them too shallow for my setup. I suppose I could use one without the raker file in it.
Mostly I use a 13/64" file in a 7/32" holder, this reduces the hook just a touch and reduces the cutter blunting effect when milling really hard woods. Sometimes use a 13/64" file in a 3/16" holder when milling softer woods.
The advantage of finessing the TPCA is it can be done at touchup stage simply by using different files in different file holders, whereas changing the raker depth down means if you go to far you have to remove a lot of cutter to effectively bring the raker up again.
