ivan":yb63yyvo said:
By "lateral setting" I mean the setting of the lateral adjusting lever, (not the position of the plane over the edge you're planing.) This can "creep" in use and take you unawares. You might re read this section my post above with this in mind.
I understood this. My observation was that the plane was taking a full width shaving when positioned a certain way over the edge. If I shifted the plane to one side or the other than the shaving would no longer be full width; rather it would remove material only from one side of the workpiece or the other. If the blade were shifting laterally in use, then I would observe a change in the location of the full width cut. Since I did not observe such a shift, I believe that the lateral adjustment was not creeping in use.
If a blade has a crown of (say) 4 thou , and you set the blade to take a two thou shaving, and you plane a shaving from piece of flat, pre-planed timber, the shaving with not be the full width of the blade. If you keep planing over the same track very soon the plane will stop cutting altogether, (see post above).
This applies to shaving a face, but not an edge. In the case of the edge, the cut is the full width of the wood, so you never form "rails" that keep the plane from being able to cut. (In principle this same thing would happen even without a crown because the plane has edges where it does not cut, so if you had a straight blade and you worked in exactly the same track the plane would start riding on the uncut region where those edges are.)
It is very difficult to crown a blade to an exact number of thou (unless you use a very expensive set of Odate crowning plates) so you may well be seeing this effect when you plane an edge. (on an edge you keep going over the same track) Hence my suggestion to plane with a straight edge, easy to get with a Veitas wide roller, and get the feel of the plane before trying fancier stuff with a cambered, or crowned blade.
Since my shavings are the full width of the edge the situation you suggest cannot arise. To get this situation on an edge would require an extremely large camber such that a centered shaving is not full width on the edge. (For a 2 thou shaving and a 2 3/8 inch blade the camber would have to be 0.03 inches at the edge of the blade, assuming a circular blade profile and 45 degree bed angle. My camber is about a tenth of that.)
When my blades were flat the edge of the blade left trails through the wood, which I didn't like much. I'll admit that the period where I worked with flat blades was fairly short. For a long while I was sharpening on dished waterstones, so everything had a camber (chisels too, presumably). Once I corrected this I had a period with flat blades, but I observed the plane tracks problem and I learned about Charlesworth's approach and so I applied the camber.
It took a significant amount of time for me to camber the blades, so I'm not inclined to grind off the camber for a short experiment. I do have two flat blades left for bevel up planes that I could experiment with. But what am I supposed to be trying to learn? What experiments should I conduct? What should I be paying attention to? (I'm not entirely sure I believe in the theory that I should adjust the tool into an abnormal state to try to gain insight into its function since what I really care about is how the tool behaves in normal use, which I think means with a camber.)
