Angle changes on the Wicked Edge – blade curves

[Mark76]

Clay has written a few times already why the sharpening angle does not change on the straight part of a blade when using the WEPS (here and here). And in a brilliant post Anthony Yan recently even proved this mathematically.

However, this is all on the straight part of the blade. I wanted to know what the angle is on the curve towards the tip. As most of us probably know, the sharpening angle does change on this part of the blade.

Obviously the angle change depends on the form of the tip. Therefore I wanted to know what theoretically the maximum angle change is.

I thought this would involve some pretty complicated mathematics. But when I elaborated it, it appeared to be more simple than I initially thought it would be. The outcome is that if you are sharpening a blade at an angle x, the maximum angle change is:

x – arctan(tan(x)/sqrt(2)).

So, for example, at an angle of 25 degrees, the maximum angle change is about 6 degrees.

You can read all about it on my blog[/url].

I am curious for your comments. Even though it involves high school mathematics only, my high school trigonometry is quite rusty :-).

Molecule Polishing: my blog about sharpening with the Wicked Edge

[Josh]

If I understand you correctly, I had the same question that Anthony answered in the thread you posted…. Look at the below post on that thread, is this what you werewwanting discussion on? I thought he explained it nicely!

http://www.wickededgeusa.com/index.php?option=com_kunena&func=view&catid=2&id=4154&limit=10&limitstart=10&Itemid=63#4229

[Geocyclist]

Very nice piece of work (your blog).

Getting down to brass tax, I guess the big question is how to set the blade in the vice (length wise) bring the tip close enough to the pivot. Would it be as simple as making “a” = “a” (referring to “a” on your diagrams). Such that the distance to the flat edge is the same as to the tip (i.e. make the tip and the edge “points” on the circle).

If this is true it would be easy to set with a protractor, or other tool.

How did you check the angle at the tip?

[Phil Pasteur]

Just curious Mark, how do you get to the theory?

Off reading your BLOG now..
edited out questions that might be answered there… until I understand your blog…

Phil

[cbwx34]

Hi Mark:

It must be right because I don’t understand it! :whistle:

I have a couple of questions for you to look at…

First is this quote:

Initially it may be difficult to grasp that the angle does not change along the straight portion of the blade, because intuition says that the further the sharpening stone is from the pivot point, the more acute the angle will become. If the stone were always perpendicular to the edge, this would indeed be the case. However, the stone can rotate around its axis on the guide rod and the recent Wicked Edge version even has a ball joint.

While it is correct that the angle doesn’t change along the straight portion (that’s well established), I don’t think it has anything to do with the stone rotating around the guide rod. If you follow the stone movement as you sharpen the straight portion, it simply slides up and down. You can mark the stone and rod so that it’s a straight line… it will always follow that line. You can eliminate the ball joint by simply doing this with the old arms. Rotation does come into play as the stone travels around the curve of the tip though.

2nd is this diagram…

While I understand why you picked the location of the knife… because the tip lines up with the vertical line, isn’t that, in a sense a “meaningless” point? Since the knife can be clamped at any location… you can move the knife back so that the tip follows the circle, which, if I understand your diagram would mean a 0 degree change. OTOH, you can move it so that it’s inside the circle, or beyond the point you did your calculations, which would result in a whole new set of calculations. Or am I missing something here?

If I’m reading it right, it does demonstrate why moving the knife along a horizontal axis does change how the stone sharpens around the curve of the tip… and how it can be changed, but not that there’s a X degree change around every tip.

Thanks!

Attachments:

• dia1.png

[Phil Pasteur]

I think that what Curtis said is what bothered me a bit. There is nothing that takes into consideration the actual tip distance from the pivot point in Mark’s calculation.
I think that Clay’s diagrams and discussion here:
http://www.wickededgeusa.com/index.php?option=com_content&view=article&id=82:does-the-angle-change-along-the-length-of-longer-blades-on-the-wicked-edge&catid=31:general&Itemid=46

And above

Shows this effect well. I can say empiricaly I do not get anywhere close to this 4 to 6 degree variance on the tips of knives that I sharpen, even some that are 8 inches long. With proper blade placement I have a hard time measuring, with dial calipers, the difference in the bevel width. When I have run the calcs before that put the delta in the under one degree range.

The presentation was masterful, but I think that some varaibles are not accounted for.

Phil

Attachments:

• angle-change—curved-blade-pt-7.jpg

[Geocyclist]

All very interesting here.

In Clay’s article he says to verify the angle with a sharpie and adjust blade position in the clamp.

1. Does anyone have any other tricks?
2. Do you have any tricks to make sure you put the knife exactly back in the vice next time?

[wickededge]

I do use the alignment guide every time now. CBW has a nice method of using the stone itself to measure the distance from from the pivot to the blade edge and then adjusting the tip to be at the same distance. I haven’t verified his technique yet, but it makes sense. I’d love to hear peoples’ results with CBW’s technique.

-Clay

[Phil Pasteur]

I would love to understand what CBWs technique is….Did I miss something (again)…
Would be happy to try it out, once I understand what it is…

🙂

One other thing… again being stupid… or just asking to define terms.
What alignment guide are you referring to… the “length gauge”

:huh:
Lost a bit here…

Phil

[Ken Buzbee]

One other thing… again being stupid… or just asking to define terms.
What alignment guide are you referring to… the “length gauge”

You got it, Phil. It’s the A,B,C… guide.

Ken

[cbwx34]

I was actually reminded from Anthony’s post, of the instructions in another sharpening method. To set the angle, the instructions stated to take a measurement from the clamp to the edge, then from the clamp to the tip, and set the knife so the measurements were approximately the same. So I applied this to the Wicked Edge…

I used a ruler in the photo to demonstrate, but you could do the same using a spot on stone, etc. I thought it might be especially beneficial on the Field and Sport, since it doesn’t have a guide.

[Mark76]

Thanks for your comments! It’s a fascinating subject, these angle changes. Ever since Clay brought it up for the first time, people have been learning new things about it. (And new misconceptions have arisen :-).)

Curtis made a good point:

While it is correct that the angle doesn’t change along the straight portion (that’s well established), I don’t think it has anything to do with the stone rotating around the guide rod.

You’re completely right. The angle not changing along the straight portion of the blade has nothing to do with the stone rotating around the guide rod.

Phil also made a good remark in the blog comments:

Your proof will work in the specific case that you talk about, but is not valid for different placements of the blade in the clamp.

Well, yes and no. The angle changes I calculated are indeed only valid for the shape and clamp position of the blade in this case. However, I chose this case for a reason: I wanted to know what the maximum angle change along the tip curve could be.

I therefore chose a blade shaped in such a way that the end of its tip points straight down. (The curve of the tip makes a 90 degree angle.) And the only way to clamp this blade in such a way that the sharpening angle at the end of the tip would be the same as along the straight portion of the blade, is the position I used in my blog:

The following statement by Curtis is not correct for the blade shape of the case under discussion, although it may be correct for other blade shapes:

Since the knife can be clamped at any location… you can move the knife back so that the tip follows the circle, which, if I understand your diagram would mean a 0 degree change.

Phil made a similar remark in the blog comments.

It is not possible to postion this blade in the clamp so that the end of the tip (or even any part of the tip curve other than its exact beginning) coincides with the circle. If you would position the blade so that the end of the tip touches the circle, you would be basically not be sharpening the end of this tip at all:

However, please recall that I chose this blade shape for a reason. In many cases it is possible to position the knife in such a way that at least part of the tip curve “almost” coincides with the circle. In that case there is (as) little (as possible) angle change at that part of the curve. This is basically what you do when you try to find the sweet spot.

And in special cases (when the tip curve follows the exact circle) it may be possible to position the blade in such a way that the entire tip curve coincides with the circle:

In that case there is no angle change at all along the entire tip curve.

So the following summarizes what I did and why.

• We all know that the angle of a blade remains constant along the straight portion of the edge. We also know that the angle usually varies along the tip curve. The way in which this angle varies along the tip curve depends on the exact blade shape, the position of the blade in the clamp and the sharpening angle along the straight portion.
• In some special cases it it possible to position a blade in such a way that there is no angle change along the entire tip curve. Thus, the minimum angle change is 0 degrees.
• I wanted to know what the maximum angle change was.
• I therefore picked a blade with the most extreme tip shape: a tip with a 90 degree curve. I positioned this knife in the clamp so that the angle change on one spot of the tip curve (the end) would be 0 degrees.
• I then calculated what the maximum angle change would be on this tip curve. It is x – arctan(tan(x)/sqrt(2)), where x is the sharpening angle along the straight portion of the blade.

Thus we can conclude that the angle change on the tip curve is somewhere between 0 and x – arctan(tan(x)/sqrt(2)). The exact angle change at each spot on the tip curve differs per shape and clamp position of the blade.

Molecule Polishing: my blog about sharpening with the Wicked Edge

[cbwx34]

Thanks for the reply… this really helps clarify things. I know when I read your original blog post, a quick read makes it sound like there is X degree of change along the tip. (I can imagine how that would play out if another forum thought that). 🙂 Since you also didn’t indicate that it was possible to move the blade horizontally, not knowing this could really confuse the issue, when related back to the WE.

Maybe you could add the part you wrote here, into your blog? Sure ties it all together nicely.

[Mark76]

Thanks for the reply… this really helps clarify things. […] I can imagine how that would play out if another forum thought that.

That’s another reason I love this forum more than any other forum on knife sharpening, even if it’s not directly about the WEPS :cheer:.

Maybe you could add the part you wrote here, into your blog? Sure ties it all together nicely.

Good idea. Just got to find the time. (The ideas for this blog post were in my head for more than half a year…) Only then I’ll post a link on Knifeforums or Bladeforums ;).

Thanks for your comments and questions, the others too! Really helped me in clarifying my ideas.

And please continue asking critical questions, also on this topic!

Molecule Polishing: my blog about sharpening with the Wicked Edge

[Mark76]

Is there a maths specialist here? I’d like to know whether it is possible to further simplify arctan(tan(x)/sqrt(2)). Arc tangens of tangens sounds like it could be simplified…

Molecule Polishing: my blog about sharpening with the Wicked Edge

[Author]

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