I didn't think Douglas barrels were made of 12L14. I thought they were modern gun barrel steel. They didn't seem like 12L14 when I worked on them. They seemed harder than that.
If I am not mistaken they were using 12L14 and that is the beginning of the controversy over 12L14 versus modern "gun steel". Douglas was involved in a lawsuit where one of their barrels failed (I think modern gun powder was involved).
I believe they may have switched to modern gun steel before they finally quit making muzzleloading barrels.
Dennis
Dennis,
From what I remember they simply quit making BP barrels. They were using 12L14 and it was very soft.
The thing about "modern gunpowder". Sam Fadala did a lot of work with short started projectiles in copper tubes to show the thing about bulging then bursting. The thing about parking a projectile some distance from the charge and then firing it sets up factors in the bore that simply are not seen in regular firings of the gun. Including firings with very large charges used as proof loads.
T/C had contracted (a "grant") to a university to "prove" that only smokeless powder could blow up one of their gun barrels. I found that report in one of the chemistry periodicals at work. When I started to look at how the university group did their work I had all kinds of alarm bells going off in my head. This work was around 1984. In some tests they used du Pont black powder. In other tests they used GOEX. Now in 1984 the average shooter buying a new T/C rifle and getting handed a can of du Pont black powder over the counter were nil! Then I took a close look at which powder they used for which test. An instant Ah-Ha moment.
Their idea was that if smokeless had been used in the barrel, alone or mixed with black powder, they could identify this by flushing the barrel with acetone. Then evaporate the acetone. Then add diphenlamine with sulfuric acid. The formation of a blue color then being proof positive that smokeless had been in the barrel. This is simply the long used test to check for gunshot residue on a suspects hands in criminal investigations. Their idea was that black powder is soluble in water while smokeless is not. And conversely smokeless is soluble in acetone while black powder is not. Now that test is actually looking for lower oxides of nitrogen. Generally found in smokeless bore residue.
Trouble is that if you ran that diphenlamine test on GOEX, out of Moosic, you got a stronger positive test than if you had actually used smokeless. GOEx out of Moosic had chemical stability problems that involved a chemical reaction between the elemental sulfur and the potassium nitrate. That reaction produced a lot of lower oxides of nitrogen in the powder before it was even loaded in the gun and fired.
I then confronted the university Phd chemical prof on this. Got a bit of a snow job in return but he did not deny that I was right. I had done similar tests daily in my real world day job.
Nobody wanted to own up to the fact that if you short start a projectile in a BP gun you may ring, bulge or burst the barrel.
The things that go on in the bore during a short started projectile firing are much like what goes on in water pipes when you slap the valve shut rapidly. Or as I joked. Here at home and at work we fight "water-hammer". In the gun you get powder gas hammer. Dixon had given me a large number of ML barrels to look at that went from simply ringed to bulged, split or a bunch of pieces. I had no flintlocks with rings, bulges, splits or pieces. The vent in the flintlock acts like a water-hammer suppressor in a piping system.
Bill K.
