I believe we need to review the basics re head gaskets and the purpose thereof, and see if we can justify our stated preferences logically.
Gaskets in general, and head gaskets in particular, are used to seal fluids under pressure between mating surfaces which, because of manufacturing tolerances, cannot reliably prevent their escape. The gasket deforms to fill the voids in these mating surfaces, thus avoiding additional manufacturing and handling costs. The higher the pressure, the more difficult it is to effect the seal.
The hierarchy of best sealing methods begins with manufacturing the cylinder and head in one piece as was done in the early days of internal combustion engine design. No joint, no leak.
Next came screwing the head to the cylinder. Welding and brazing were used, too.
Meanwhile, the use of gaskets continued to evolve but barely kept pace with rising pressures and temperatures. The lure of making an inexpensive leak-proof joint was compelling, however, and head gasket design kept evolving to fill this need. Note this gasket method required a comprehensive approach involving materials, surface preparation, fluid dynamics, clamping mechanisms, etc. And cost containment.
A gasket-less joint was the holy grail, a design which would permit easy separation whilst promoting good thermal expansion between the two surfaces plus other advantages, real and/or perceived. In fact, this method was near-exclusive in early days of sport motorcycling and was achieved by lapping the head to the cylinder. Its major drawback is cost - cost to prepare the surfaces, cost to handle and assemble the pieces, and cost to maintain the surfaces in subsequent handling.
Several contributors to this forum have touched on this matter, suggesting that the head and barrel be prepared on a lap using valve grinding paste and a sheet of plate glass. This is good, although why stop there? Why not eliminate the glass plate and lap the two pieces together, as mentioned above? Years ago I did this to a Jaguar XK 120 engine which was being prepared for a sprint car, using methanol and nitro at 16:1 compression ratio. No joint, no problem. Two motorcycle examples come to mind: the Manx Norton and the Gold Star.
But wait! you say. The Gold Star HAS a gasket. Well, yes, but its purpose is to seal engine oil draining from the head to the the push rod tunnel; combustion pressures are sealed by direct contact between the head and a spigot on the steel liner in the barrel. The Manx Norton, free from any environmentally-correct need to collect oil from the valves, simply provides spigot contact only.
OK. How about our beloved A7'S and A10'S? Well, they're provided with a perfectly adequate gasket design, regardless of and in spite of the few naysayers who always seem to know better. (Really, did BSA become the world's premier motorcycle manufacturer by disregarding this important factor? Do they really want to challenge Roland Pike on this matter? Moreover, who of us actually had a factory head gasket "blow" in service?)
The factory gasket is an elegant design, even by today's standards. It has compressible rings around the cylinder bores and oil drains which provide simple, effective sealing for the fluids and pressures involved.
Compare these rings with the proven ability of the lowly spark plug gasket to withstand the combustion pressures encountered.
And the solid copper gasket? Unless it's fully annealed to dead soft AND the faying surfaces of head and barrel are super flat, the situation is not improved. The solid gasket presents almost twelve square inches of surface which must deform in order to seal against the pressures involved. This deformation will require a minimum of at least 35 to 40 ft lb of bolt torque. The standard laminated gasket requires approximately half that clamping force. What about the supposed value of enhanced heat transfer? Well, why would you think that the engine needs such enhancement - BSA forgot about that when the engine was designed?
I've listed some of the facts. Now, let's revisit our own preferences and prejudices, unsubstantiated stories and inexact experiences and decide whether we truly need to modify our wonderful bikes.
Best,
David
