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Head rescue and rechamber


sicivicdude

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You know it's bad when you have to break out like every different process you have available in order to do one job :( This head is pretty well beat to death. Luckily, not completely to death ;)

 

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Basically, ignore the squish area damage. Because of the head design needed, all of the squish area is going to be gone anyway. If we ignore the obvious damage in the squish area, that leaves us with two main problems to start with:

 

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Two rather large "dings" down inside the combustion chambers. The one in the left cylinder is a doozie. You could lose a pencil lead tip down inside of it. Nothing a little "mad scientist-ing" by SCD can't handle...

 

We start ALL aluminum welding projects (and ESPECIALLY ones on cast aluminum) with thorough cleaning. Oil, grease, dirt and aluminum oxide all work together to form a huge mess if you just tried to go after it with the tig welder without cleaning first.. All of the "crud" has to come off in order for filler material (good aluminum) to go back in...

 

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Those two combined leaves it looking a little better:

 

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A little "pre heating" before we even strike the first arc ensures a nice stable arc start with minimal wander and even less contamination.

 

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Propane torch laid directly onto the first damaged area. Check the temp with an infrared non-contact thermometer. Once the entire head is upto temp, we strike the arc. When the welding's finished here's what we're left with IMMEDIATELY after closing down the welding arc:

 

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A little more wire brushing with a different stainless brush (the newest one does the acetone pre weld brushing to leave the least amount of contamination possible) yields this:

 

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And this:

 

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Once the proper amount of material goes into the head, the head is actually gently heated with the propane torch moving around slowly gradually reducing heat until the temperature of the aluminum falls down to below what I can "pull away" with the torch. Cast materials (not SO much cast aluminum but somewhat anyway) all have internal stresses from the thermal expansion that takes place during the casting process. Even with an properly even heated mold, the outside of the cast material is cooled faster than the inside during the casting process. This puts a lot of stress on the parts. Preheating evenly prior to the weld and then cooling slowly (40 minutes in the case of this head, 8-12 hours in the case of a cast iron automobile head!) allows the internal stresses to even themselves out as the entire part cools down gently. We don't want any hairline fractures in this head when we're done from thermal shock, do we?

 

Once the head is allowed to air cool to the touch, I put it in the lathe and began to "round it out". The welds are naturally not the same level as the rest of the combustion chamber and I have no intention of leaving them like that either.

 

Onto the mandrel with the counterbalance to be worked very slowly and meticulously until the weld is flush even with the rest of the combustion chamber (Without taking too much material out!). Remember, ignore the squish band area for now... That damage will all be cut out anyway due to the nature of the head shape needed. After the first round of cutting using the lathe tooling, some polishing takes places to yield the final result:

 

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You can see from this pic, I didn't change the size of the combustion chamber, only filled in the damaged area and polished it:

 

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Do both sides the same way to finish off both combustion chambers:

 

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Now, remember what I said about the squish area? This is the least damaged of the two sides but I took out approximately 1/3 of the total amount I plan to remove. I have to reduce the chamber volume by quite a bit anyway before this head will be "ready" to run so the squish band damage is unimportant to begin with:

 

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Just for giggles, I tried the fly cutter "as is".

 

Put on your safety glasses boys, we have chips a flying'!

 

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Don't think I'm taking it easy just for show, this is a .011" swipe!

 

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Without the flash on you can see this thing whizzing on around. Turning about 250rpm, plenty fast for that carbide bit to knock off some aluminum!

 

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No worry about back cutting on this one..... it fits completely under the flycutter!

 

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No worries about the bit slipping during the cut (at least not at .011" cut depth)

 

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Good job! Should set it up to use o rings now...

 

I thought about o-rings but decided against it just because of how little space there is around the squish area. This head will be sitting on old school Vito's 68mm bore cylinders using their big bore head gasket so it not only corrects the squish thickness, it also will take care of the sealing chore.

 

Maybe one for a stock bore banshee would be better suited with o-rings to seal it.

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Well, most people have been led to believe that a stock banshee head isn't rechamberable. Most people think that a "domed" head is the only performance option available

 

That's simply untrue.

 

With a stock head, basically any head shape is achievable just short of a full on alky drag head (not enough meat in there for that). For folks who don't want to spend $260 on a cool head (or similar replacement head) rechambering is an option.

 

It's especially valuable for that "sleeper" look.

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$120 for the rechamber regardless of the finished design needed as long as the head is in good shape to begin with. Obviously, requiring welding it would cost more but that head ^^^ was a free donor head and is going out as a favor.

 

I use software for calculating MSV values for correct squish velocity so rest assured that the combustion chamber shape would be as corrected as possible for a given application.

 

The process for doing it is exactly as pictured above, a special counterbalance for turning each combustion chamber separately and then a special jig to properly support the head while the mating surface is being removed. Once the flycutting operation is over, the head is finish lapped to ensure a proper seal.

 

I think considering the work involved, the price is fair. It's also priced well enough that folks who don't want the "bling" of the cool head, it's a serious budget minded modification.

Edited by sicivicdude
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