matthewwh":2cit4nkw said:
adrian":2cit4nkw said:
Yes, well, I'm still not very good at distinguishing a sharp blade from a sort of sharp blade, so I'm undoubtedly going longer between honings than is optimal. However, the plane was taking reasonably nice shavings up until the end. (Or, at least I thought they were OK.) American Cherry is a very easy material to work except that I do have some tiny knots and grain reversals on some of the edges.
A properly sharpened blade should produce a clean polished surface on cherry regardless of small knots and reversals. If you see any fluffiness in the surface or the plane feels more difficult to push, then it's time to strop or sharpen.
If this is really true then I never had a `sharp' blade. I had one particularly troublesome grain reversal where I specifically went and honed the blade but I still got some tendency to tear out one one side or the other. (This one had had a 5 mm knot in it which I had extracted and filled.)
I was recently having some difficulties with tear out again and I switched to a blade with an effective pitch of 62 degrees and it was much better.
I have successfully planed curly maple with my bevel down bench planes without tear out. (The shavings had to be under 2 thou or I'd start getting tear out.) So I think I actually am achieving sharp blades.
matthewwh":2cit4nkw said:
adrian":2cit4nkw said:
When I first posted about this issue, people seemed to think that I should not lose my camber in use, that this amount of wear could not occur, despite the use of only the blade center. I mean, it's obvious that the wear is all going to be in the center. But how much wear will occur or can occur? I personally have no deep knowledge of metallurgy to say whether the amount of wear I'm observing is normal or unusual. Suppose you used a plane blade for edge planing 10 times longer than you should (e.g. you should have honed it ten times but you just kept on working). Would you expect to wear away the center of your camber?
As a blade dulls there is more friction and therefore more wear. In normal use on a flat surface you wouldn't notice how much has worn away as you have nothing to compare it with. Although it looks quite dramatic when you hold it up to a straight edge, you have probably only gone a few thou below flat on the centre of the cutting edge.
Of course it's only a few though, probably less than 2. I suppose I could test it with feelers. The original camber might have put the center 3 thou above the current high points. (I was aiming for the Charlesworth suggested camber of 0.25 mm = .01in at the sides.) So that means that I've lost 4-5 thou at the edge center. Do you think this is a normal amount of wear? (In other words, it doesn't indicate some sort of blade defect, as others have suggested.)
To provide a bit more information on how long I went without honing: the last time this happened had sharpened my planes and subsequently jointed 68 linear feet of edge. I then fine tuned the edges, taking a few more shavings off 48 linear feet. And at that point I noticed the same concave edge on the Clifton blade. When I did this I had a jack plane set for a thicker shaving and then I would finish up with the Clifton jointer set for a fine shaving.
matthewwh":2cit4nkw said:
adrian":2cit4nkw said:
Where does the metal go? If we are talking about rounding over and deforming the edge that's a lot of metal to round over, isn't it?
You can see the same thing happening more clearly when you are sharpening, (which is really nothing more than controlled intentional wear). The steel forms a tiny burr or wire edge on the trailing edge of the tool which then breaks away. With correctly hardened steel the burr is incredibly small and breaks away effortlessly. With unhardened steel it forms a large flap that won't come off until you tear it.
So the wear process in use is abrasion, just like on the stones? (It would be different because the blade would wear on both the front and back of the blade, so you'd never get a burr.)
matthewwh":2cit4nkw said:
adrian":2cit4nkw said:
I find it troubling because it takes me a long time to reestablish the camber once this happens.
A good reason to use a flat grind when doing a lot of edge jointing, this will also allow you to use more of the width, thereby evening out the wear on both the blade and the sole.
But I have not been successful at edge jointing with a flat blade. I'm not using the cambered blade just for the sake of complication.
In fact, in case of the above mentioned 62 degree high angle blade, the blade was actually one of the few flat blades I have left when I decided to try it on the cherry that was tearing out. And in a few strokes it became apparent that without the camber I was in trouble. The wood was getting less and less square and I couldn't seem to correct it. (Note that in this case, I'm planing a final outside edge, so it needs to be actually square, not just cut at the same angle as its mating board in a panel.)
I went and cambered this blade. Actually I got an overly aggressive camber I'm having trouble fixing where I can only get a 1/2 inch shaving. But even so, I was able to do the job with too much camber far better than with the straight blade.
adrian":2cit4nkw said:
I know I had raised the angle on the Clifton at least to 27 and possibly up closer to 30. I think the A2 blade in my other plane has an angle around 30, maybe 31 or 32 with the microbevel.
If you were about to start an edge jointing marathon and were more concerned with wear resistance than surface finish I'd put at least a 38 degree secondary bevel on either type of steel.
At least 38 degrees? That means the angle of the bevel with the workpiece is 7 degrees or less. I thought you had to have a "relief angle" of 10 degrees or something like that. (It's been a while since I read Lee's book.)
adrian":2cit4nkw said:
I'll admit that I've been reluctant to back bevel because it seems that it would makes sharpening more complicated---the last thing I need is something that discourages me from honing. I noticed that Charlesworth recommends a 25 degree (!) back bevel in his latest DVD. (But I haven't actually watched that part yet.) Do you see some advantage to using a back bevel on a bevel down plane compared to a bevel up plane sharpened at a higher angle?
It's the same thing really, all you are doing is changing the effective pitch of the tool (the angle between the surface of the timber and the first bit of blade that it picks up on).
So there's absolutely no difference between a bevel up plane beveled to deliver a cutting angle of X and a bevel down plane back beveled to give a cutting angle of X? Presumably for lower angles there must be an advantage to the bevel down plane on account of the chip breaker.
adrian":2cit4nkw said:
Thanks again for this offer. I think the basic question is whether the problem results from flawed technique or a flawed blade. From what I've posted so far, where do you think the problem lies?
If O1 steel has properties that make it less forgiving of infrequent honing and more subject to wear under these circumstances, perhaps there's nothing wrong with the blade at all and the observed wear is normal for my use. A new blade would do exactly the same thing. I might be better served in this case by either improving my technique (honing more often) or getting a different kind of blade. Perhaps I should reserve the O1 blade for work with a straight edge and get an A2 blade to camber. (Or I found that a D2 blade is available as well. I have no idea how D2 compares to A2.)
No problem using an O1 iron with a camber at all but to benefit from its qualities you must keep it honed.
Didn't you just suggest using a straight blade instead of a cambered blade a few paragraphs up? The point of the above analysis is not to state great truths about blades and steels, but to decide what I ought to do with my Clifton plane. If the failure of my blade seems extraordinary, then it makes sense to take you up on your offer to swap. But if not, then I should instead figure out the best way to make use of the blade. Sharpening it flat would presumably prevent the problem of having to constantly recamber it, so that's one possibility. Exercising the discipline to hone more often is perhaps another solution.
D2 is like A2 on steroids, it has 11-13% Chromium (rocks) content so it takes an edge like a baby's backside and holds onto it forever. Great for things like survival knives where you can spend hours trying to get it reasonably sharp but may need to use it for weeks on end without the facility to resharpen it.
Does this mean it would give an inferior finish to A2?
If you are truly averse to honing you might consider HSS (high speed steel) blades if you can find them. HSS will take a reasonable edge and has excellent wear resistance. It is a monumental pain to hone (nigh on impossible by hand) but it will get there eventually.
I think I prefer a middle ground. If I had a blade that was a monumental pain to hone I'd probably never sharpen it.
My reluctance to hone as often as I should has, I think two origins. One is that all too often, at least in the past, it has seemed to require 45 minutes. I typically only get 45 minutes at a time to work on my project at all. Sometimes I only get 10-15 minutes. Now I can report that I recently honed a blade in only 5 minutes, so things have improved. Part of my problem in the past was dished waterstones. I would sharpen for eons and never get a burr that went all the way out to the corners, presumably because the back of the blade was convex. Now the problems seem to be things like the vanishing camber problem. If I can get to where it almost always takes just a few minutes to hone I'll probably do it more often and become more sensitive to the loss of sharpness.
My second problem is not having a permanent sharpening station and having to get things out and put things back.
