I’m not getting aebl as hard as I want, best I’ve managed is 60 but often tester reads 57-59. Carbons I can repeatable hit target hardness within a point getting 63/64. Thinking it’s decarb during soak, but edge is more prone to fold at acute angles when brass rod testing. Have done both plate quench and oil first then plates - spec chart shows shouldn’t make a diff as have a while to get the temp down.
Are you using any decarb wrap/paint or just running a reducing atmosphere? Any soak time?
From the charts I've seen, it has a retained austenite problem. I try to do something simple with each steel, and can get book results on anything simple (combination hardness and toughness) and good grain size. Stainless, I usually end up a little soft, but because I'm in the open atmosphere (no wrap, no paint) I try to bias things that create higher hardness, not necessarily what's normally done for stainless. So a quick really high heat, and AEB-L will or XHP will generally be very hot for some large fraction of a minute.
So, there's no full normalization like a furnace, but I think it's a little more forgiving of error than a soak, where the soak can either create something really good, or it can be off in either direction (not hot enough or too hot) and really affect the amount of carbon in solution and retained austenite.
The only thing I can glean from Larrin Thomas's charts is that liquid nitrogen right after the quench will cover up a whole lot of issues with AEB-L. My issue in the open atmosphere ignores all of that stuff - what I do is pretty simple:
1) heat the steel to a high temperature, then quench faster than it would need to be soaked
2) it hits plates between the beginning and tail of the quench to stay straight if it's a knife. XHP doesn't really move. AEB-L seems to be more willing to move, but it's not like 1084 in terms of movement. The tail of the quench is a complete dip in water and then toss the knife in the freezer
3) if I have an offcut, especially of carbon steel, I will experiment in quench heats and various things because it's really quick in a forge, and note the relative color change after nonmagnetic where grain grows, and then I will shrink that back
4) the last thing will be a wear test in a plane iron, which will allow me not to see the grain size, but it will allow me to see the size and dispersion of carbides. If they are nice and relatively round and evenly dispersed - good.
Fast cold quench will deal with some of the R.A. problem but liquid nitrogen would help a lot more. If I ever get a furnace, not sure I will at this point because of the space and the time it adds to everything, then I will also probably get a dewar.
As it is, it's not a great plane iron steel (AEB-L) for some reason - it's got good edge life, but other steels cut better as they dull, even if they don't last as long. And if I can reach the 58-60 range with knives and at least get something noticeably better than 420HC for edge holding, then that's OK.
Fast cold quench for carbon steels is just about magic, especially if they have a lot of surplus carbon.
These are samples that I sent to larrin thomas for testing. I had already done my due diligence snapping samples and shrinking grain. O1 is about where book says it should be. Some charts show a little more toughness. 26c3 is off the chart. I think a fast heat prevents too much carbon from getting into solution, and a fast quench still picks up the tail end and keeps the carbon at book. These sample are all done individually, and the tempering is all done at the same time between plates in a toaster oven, double tempered around 400F, give or take toaster oven fluctuation - which is a big fluctuation, but inside the mass of scrap steel, only bobs around a degree or two F according to the thermocouple that I have in the middle of the stack.
The idea that 26c3 does better with minimal thermal cycling and then a high heat by eye is generally not well received (I got banned from a knife forum for thinking this should be looked at further, but those forums can be weird with "do it my way" people). I lost track of one O1 sample in the forge and it got heated a little too long but I quenched it and sent it, anyway. I think that's the flyer. At any rate, with nothing more than parks 50, some cold water and a freezer, I'm getting high hardness (above book) and good toughness. A dewar of LN would increase things even further.
It's a great steel for chisels. Great. Sharpens like it's softer than it is but chisels like a hard steel and takes a fine edge off of almost anything.
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