Tried it before, but couldn't get it hard enough to be useful.
Today, I just blasted it with two mapp torches in a small area (inside an insulated paint can forge, so lots of confinement and not a lot of mass to heat up) and could only get really the first inch hot enough, but that would be enough for about a million feet of planing before cutting the thing up and making two marking knives out of it.
AEB-L is a matrix steel, meaning it has relatively low carbon - not much in surplus for the chromium in it (oh yeah, it's stainless, too) to create large carbides (I don't know anything about chemistry, but carbides consume carbon).
This stuff is a very inexpensive stainless that's also stamped/blanked into the metallic part of coated razor blades. It's never that hard in them.
But with liquid nitrogen and a furnace (I have neither) it could temper to 64 and comfortably to 62.
Edge life is significantly higher than A2 and about 15-20% below V11. It is a much tougher steel than V11.
What did I find? First, you have to plane twice the footage to get some edge wear that you can see....but there's nothing in the matrix to look at. It looked smudged. There are probably a few elongated or wormy carbides according to the micrograph of the stuff.
if you look at the bottom of the picture, it looks blurry. It's actually in focus for at least part of the length.
I don't have much to conclude about it - it feels different, greasy, etc, and it doesn't have quite the same sweetness as it wears as 80crv2 and O1 (1095 and 26c3 also have that sweetness).
I have never seen a steel like this where the wear pattern is weird looking and smudged.
Sharpening is much in proportion to edge life. You can see how much less rounded this is than 80crv2 over the same footage planed as the other picture.
Why the edge wears in a different shape taking the same shaving from the same board, I don't know.
Kind of a let down - the average minimal use plane user wouldn't notice what I'm talking about right away and maybe never would (the sweetness of the cut), but that sweetness is what allows a plane to stay in the cut with the cap set even while the plane is dulling - without much external down pressure.
maybe it's better suited to kitchen knives. Nice, but not nice enough to rush out and buy a furnace and dewar. Like 52100, I expected a little more given the fanfare over the stuff for knives.
to heat treat this stuff in the open atmosphere is against all rules of decency on the knife forums, and I already got banned there for being a troll talking about being able to figure out how to harden things in the open atmosphere by trying to overshoot the temperature target and then not soak.
But yet again, I do have a relatively hard iron here, definitely usable and probably 59/60 and no evidence of lack of toughness or uneven carbide disperson.
I'd send some samples off for testing, but the guy who was testing them for me is the son of another guy who made a stink to get me kicked off of the knife forums. The testing is just two pieces of equipment that take up about as much space together as a large contractor saw, so maybe I will eventually just hunt for the stuff used (a versitron type hardness tester and something called a charpy notch tester).
I don't venture into stainless other than XHP (V11) from time to time and now this - it's just weird seeing something that doesn't have much for carbides in it. I'm beginning to think the way 1084 is and the way this is, the carbides in small size and good dispersion actually make an edge cut better as it wears.
Today, I just blasted it with two mapp torches in a small area (inside an insulated paint can forge, so lots of confinement and not a lot of mass to heat up) and could only get really the first inch hot enough, but that would be enough for about a million feet of planing before cutting the thing up and making two marking knives out of it.
AEB-L is a matrix steel, meaning it has relatively low carbon - not much in surplus for the chromium in it (oh yeah, it's stainless, too) to create large carbides (I don't know anything about chemistry, but carbides consume carbon).
This stuff is a very inexpensive stainless that's also stamped/blanked into the metallic part of coated razor blades. It's never that hard in them.
But with liquid nitrogen and a furnace (I have neither) it could temper to 64 and comfortably to 62.
Edge life is significantly higher than A2 and about 15-20% below V11. It is a much tougher steel than V11.
What did I find? First, you have to plane twice the footage to get some edge wear that you can see....but there's nothing in the matrix to look at. It looked smudged. There are probably a few elongated or wormy carbides according to the micrograph of the stuff.
if you look at the bottom of the picture, it looks blurry. It's actually in focus for at least part of the length.
I don't have much to conclude about it - it feels different, greasy, etc, and it doesn't have quite the same sweetness as it wears as 80crv2 and O1 (1095 and 26c3 also have that sweetness).
I have never seen a steel like this where the wear pattern is weird looking and smudged.
Sharpening is much in proportion to edge life. You can see how much less rounded this is than 80crv2 over the same footage planed as the other picture.
Why the edge wears in a different shape taking the same shaving from the same board, I don't know.
Kind of a let down - the average minimal use plane user wouldn't notice what I'm talking about right away and maybe never would (the sweetness of the cut), but that sweetness is what allows a plane to stay in the cut with the cap set even while the plane is dulling - without much external down pressure.
maybe it's better suited to kitchen knives. Nice, but not nice enough to rush out and buy a furnace and dewar. Like 52100, I expected a little more given the fanfare over the stuff for knives.
to heat treat this stuff in the open atmosphere is against all rules of decency on the knife forums, and I already got banned there for being a troll talking about being able to figure out how to harden things in the open atmosphere by trying to overshoot the temperature target and then not soak.
But yet again, I do have a relatively hard iron here, definitely usable and probably 59/60 and no evidence of lack of toughness or uneven carbide disperson.
I'd send some samples off for testing, but the guy who was testing them for me is the son of another guy who made a stink to get me kicked off of the knife forums. The testing is just two pieces of equipment that take up about as much space together as a large contractor saw, so maybe I will eventually just hunt for the stuff used (a versitron type hardness tester and something called a charpy notch tester).
I don't venture into stainless other than XHP (V11) from time to time and now this - it's just weird seeing something that doesn't have much for carbides in it. I'm beginning to think the way 1084 is and the way this is, the carbides in small size and good dispersion actually make an edge cut better as it wears.
