Artisanal Gunmaking, No compromises, No corners cut, EVER

Wednesday, November 18, 2020

A New Series (Maybe)

 I think I'll call it "Stupid Shit You Read On Gun Forums".  

Internet forums, and gun forums in particular, continue to prove the validity of Dunning and Kruger's studies.  They remain places where people who couldn't find their own ass using both hands spout "expertise" on subjects about which they know little to nothing.

Our first installment concerns hinge pins and barrel hooks.  The apparent conventional "wisdom" is that the hook is what wears, never the pin, because the pin is "hardened".  Part and parcel of this wisdom is the idea that replacing the hinge pin in order to correct an off-face condition is hogwash, "just weld up the hook and refit" (usually with a Dremel) is the correct course of action.  How does one weld up the hook of a Model 21 when it's off the face (sorry fan-boys, it does happen)?  What about welding the hook of chopper lump barrels (which have a braze seam running right down the center of the lump)?  I have seen both of the above examples welded by gun plumbers, both American and English, and it's not pretty.

The hinge pin in most break action guns is made of the same (or similar) material as the frame in which it resides.  That material is a low-carbon (sometimes very low), plain steel.  These steels are non-hardenable on their own due to their low carbon content and so are (in this application) surface hardened (case hardened).  Without getting into a long-winded dissertation on the subject, case hardening is a process whereby extra carbon is added to the steel at the surface and, to an extent, below the surface.  This makes the surface effectively hardenable.  Case hardening consists of numerous steps, the first (assuming a virgin part) is carburizing, wherein the carbon is added to the surface via a combination of heat and an external carbon source.  The second step is the actual hardening,  which consists of heating and quenching the part, so as to transform the now more carbon-rich surface (the steel below the surface remains unhardened) and the third step (usually ignored by gun manufacturers) is tempering of the part.  Depending upon certain variables, the hard "case" that forms on the part can be relatively deep (.060" or more).  

Gun manufacturers, for reasons unknown to me, tend to skip the individual first carburizing step and combine it with the hardening step.  While this does save time, it also results in a much thinner "case".  The hard surface on a frame rarely exceeds a few thousandths, often being .005" or less, usually much less.  This seems to be because case hardening is used in the gun world as more of an ornamental "finish" than a functional surface treatment.  Now, with a hard skin that thin, one might surmise that the soft steel below would be free to deform just as easily as without the hardened layer.  One would be correct.  Once the very thin hardened layer wears off (or through), wear accelerates rapidly.  This is especially true in American doubles because the vast majority of those use the hinge pin as a structural element, meaning it reacts the forces generated upon firing, rather than being only a hinge around which the barrels rotate to open or close.  In simple terms, when these guns are fired, the hinge pin is what keeps the frame from departing to the rear.  This causes deflection/deformation of the pin, which accelerates wear of the very thin hard skin, because the hard skin is much less flexible than the steel beneath.

The fact is that the internet experts are wrong, again, as usual.  In American designs it IS usually the pin that wears and replacing the pin IS the only correct remedy.  Now, correct means different things to different people but I prefer the dictionary's definition of most words.  Below are examples from this very blog that illustrate the point.  I've done many, many more prior to starting the blog and on guns that simply were not interesting enough to make it here.

Ithaca NID


Barovnik


L.C. Smith


Fox SBT

 

Now, given that the hinge pin is worn, and the worn area is almost never a perfect arc, how does one weld and refit the barrel hook so that it maintains full contact while traveling around the worn pin?  Answer: It can't be done.




Friday, September 25, 2020

A Cautionary Tale

I know it's been a while since the last post but as the great Mark Twain once said: The rumors of my demise have been greatly exaggerated.  Now on to the business at hand.   The victim is one comprehensively cocked-up Henry Atkin SLE in 12 gauge, and the title is an allusion to the pitfalls of buying a gun from a "reputable dealer" without a pre-purchase inspection/evaluation.  This turned out to be one of those repair projects that ends up feeling as if it's become a career.   Not one single area of this gun was spared the handiwork of at least one "gunsmiff".   If one individual was responsible for all of this, then I've got to tip my hat to him for elevating incompetence to a level that I didn't think possible outside of Washington D.C.  To be fair, not all of the problems were attributable to bodgery, a couple were the result of actual, honest wear and tear.  We'll start there. 

 The first thing found upon disassembly was that both lockplate anvils were failed.  The anvil is what the tumbler stops against when released by the sear and, as you might imagine, it takes a beating (literally). 

 

After annealing the lockplates, the broken areas were prepped and TIG welded up in preparation for reshaping. 

 

 The anvils were filed to shape and the interior surfaces were polished in preparation for case-hardening. Since the gun exhibited no case hardening color externally, the colors were removed from the exterior surfaces in order to render the repair externally undetectable.

  Apparently, some trigger-pull work was done to the left lock.  The primary sear's nose was shortened and reshaped (presumably to lighten the trigger pull).  When our hero discovered that the primary sear now released the tumbler before the interceptor sear cleared, he took the "expedient" method of correcting the situation: grinding off the nose of the interceptor.  Astute readers will readily surmise that this rendered the interceptor incapable of performing its function of actually intercepting the tumbler in the event that the primary sear fails to hold.  Since welding these parts is a non-option because of the material from which they're made (see here for more detail:https://vicknairgunsmithing.blogspot.com/2020/01/can-we-just-stop-with-this-shit.html), new parts had to be made.

Completed left lock


The locator tab on the interceptor sear spring of the right lock had also failed.  The attempted solution was to file the back side of the spring, in an attempt to recreate the tab.  I'm sure it seemed like a good idea at the time.
 
The last frame-related item was a broken toplever spring.  We've all seen this before, but here are a few photos anyway.

Now, on to the ejectors, where the perpetrator didn't let a complete lack of comprehension as to their function get in the way of "fixin' em".  After filing the legs of each sear so thin that they actually slipped past the trip lever noses, our man then proceeded to peen the legs, presumably in an attempt to lengthen them.  Why?  I don't know, and neither did he.
The ejector sears are pretty complex in their shaping because the forend wood occupies the space in between them, allowing purchase for the rear forend iron screw.

A kludge-fest of this magnitude wouldn't be complete without mangled screw slots.  Somehow or other, our man actually missed one screw slot with his talents.  In order to relieve this single screw of its "survivor's guilt", I made new screws to replace the damaged ones, a few of which are shown here.  Again, we've all seen this before.

There were also stock repairs that had to be made, as well as refinishing of the stock and forend, recutting the checkering and an ebony extension (1").  The barrel engraving was recut and the barrels reblacked as well.  I didn't take any photos of those operations, mainly because blogging about it was not foremost in my mind at the time.
 
At last, the finished job...