Have you tried 52100 with a DET treatment first?
I see a lot of offhand comparison of steels, but HT has a big impact on end result. I could HT 52100 three different ways and it would seem like three different steels. Bit like the working characteristics of kiln dried vs air dried ash.
The steels you favour seem to have the most straightforward HT requirements, either a preference for lower alloying or challenges with getting everything into solution when using a forge for HT
Yes. As far as I know, DET generally gets things away from a spheroidized - or at least coarse spheroidized condition that's easy to machine but doesn't result in good hardness on a standard schedule.
I've tried about 6 different things with 52100. If you treat it like you're ignoring the chromium, it will come up short in hardness. Not like a stainless but sort of the same type of thing - it's probably a matter of getting some of the carbon in solution before hardening. Once you solve that, it'll get to very high hardness without having to undertemper it, but it still has the same initial sharpness that O1 does but the very edge wears in a different pattern.
I thought AEB-L might be nice and wear really finely, but it does the same thing a little bit. These things don't matter on knives, so I think AEB-L is the bees knees for a basic stainless knife that needs to be in the chisel hardness range. I won't delve far into what I did to get high hardness out of it other than to say pre-quench, a lot of heat and a very short very high heat in the open atmosphere and a quick quench. 52100 likes the same thing.
For someone working from a garage, to dissolve chromium carbides without a furnace, it's probably better just to find bar stock that's not delivered coarse spheroidized like buderus and some other mills deliver it.
As far as the steels that I like ending up being simple, I wish AEB-L did better. It's actually quicker for me to heat treat than most carbon steels because it doesn't get any normalizing heats or grain refinement. Just a prequench probably around 1800F and then a higher heat and a fast quench. It definitely wears longer than 80crv2 and O1, but like 52100, it doesn't pick up a shaving as easily in fine work.
To see what i'm talking about, you have to make two irons for the same plane and then do a durability test. If they are about same hardness and last the same number of feet and plane the same weight, they're in good shape for comparison. But as you get into their dullness cycle, you'll notice that O1 picks up a shaving more easily. They both fall off the cliff at the end and stop cutting. A2 also has this behavior, but it has a little bit more edge life - I would describe it as longer wearing than O1, but the period of longer wear is one that you don't want to use, anyway.
I wouldn't have noticed any of this (I thought AEB-L once I solved getting it above 60 was going to be a real charm - and it does have good wear and the images of it show almost no visible carbides at all).
80crV2 is just a better 1084. 1084 is easy to heat treat once you narrow down what stops grain growth, there's less tolerance for heat and time, but that's not much of a problem - when you're at the forge, the faster you can go paying attention, the easier it is to pay attention. 80crV2 warps less, wears longer and so far as I can tell, there's nothing better about a tool with 1084 vs. 80crV2 aside from perhaps if you wanted to explore the outer reaches of hardness, 1084 may get a point harder.
All of this is way above the head of the sellers article, but partially explains why I settled on three easier steels after chasing "less easy steels". The three I like seem to return good edge quality throughout the wear cycle - 26c3 in chisels (does fine in planes, but I can't see a reason to use it unless someone wants a 65/66 plane iron - which again, I don't see the benefit of other than novelty), 80crv2 and O1 in chisels. I can make a passable chisel in O1, but 26c3 is at least a notch better.
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too with AEB-L - the toughness is really high. It will deflect an edge a little at high hardness (like 52100), and so will 80crv2 at the initial edge. That's a habit in wood that I don't really like. On a knife, it's probably preferable. So I leave 80crv2 at a harder temper, and the same with AEB-L. They do well at 325-350. O1 and 26c3 do not in woodworking tools.
