How do you think blister steel was made? It certainly wasn't made with .020" case depths. Yes high temperatures were used, but a simple .020" is obtainable with reasonable temperatures. Point is, .020" is not "practically impossible".
Oh brother.
CONTEXT people context.
Could we possibly confine out discussion to GUN PARTS and CHARCOAL process? With enough time and temp KASENITE will give deep penetration too.
So tell me. What process do they use to get these case depths? Is it a charcoal? This is the
context of the conversation, we are not building large mining equipment after all. Do the parts come out with colors or without?
I am not talking of large diameter shafts or huge gears or other industrial or automotive parts that are hardened then perhaps ground to final tolerance AFTER they are hardened.
I know that some automotive crankshafts, for example, have hardness depths over .010 and can be reground to -.010 and maintain their wear surface. But these are not processed as a casehardened lock would be in 1780. So I see no point in bringing forged alloy crankshafts into a discussion of packhardened gun parts. What would be the point?
Blister steel. I know about blister steel. I just don't connect making blister steel with color casehardening.
Practically impossible in the context of color casehardening with charcoal and expecting proper colors.
CONTEXT OF THE CONVERSATION.
If we change the context every post then almost anything is possible.
If we insist on including modern methods and materials or things such as making blister steel then we could include nuclear fusion I suppose.
The guy I talked to has done several runs a week for 15 years or more. I know the Peabody action I pictured in another post was done probably 15 years ago. He does several heats a week. He was watching the furnace when I was talking to him. He does hardening all the time PROFESSIONALLY. But
again the CONTEXT of my conversation was pack hardened gun parts not gears for a Bucyrus-Erie.
He said that very high temps, over 1600, would be required and a pack other than charcoal would probably be needed to put deeper case on parts. I posted that.
Then we have to ask WHAT IS THE POINT? If both parts are equally hard there will be almost no wear at all in OUR CONTEXT.
Where firearms parts are concerned heavy cases are simply not needed. In thin section parts its a serious DETRIMENT. Why? THEY BREAK unless well annealed. If annealed past about 450-500 f they are less "slick" when bearing on other parts. The color is maybe changed if the parts are color hardened.
IIRC these parts that you have seen with .020 case depths WERE BROKEN... THEY BROKE. Does this not tell us something?
Casehardened parts are not supposed to break this is one of their advantages. A hard, even brittle, wear surface and a tough core. They should bend and maybe crack the case, not snap off. I wish someone would show me some reason why a flint cock or a lock plate or a sear or tumbler needs .020 case depth. There is no reason. Unless we want it to BREAK or chip.
So why don't you fire up your charcoal casehardening process and color caseharden a part .020 deep, with no surface damage, send it to a lab and have it tested then come back and tell us all about it.
If anyone thinks that .005-.008 case depth is inadequate. I suggest they have something casehardened to this depth then try to reshape it with a mill file....
Dan
