Can you do this?
Can you do this?
so tonight I can get back to #4 and see if my latest idea will work or not. 
Can you not just mimic the #2 primary? It looks like it would work perfectly if you just followed it along.


) so I'm only keeping track for purposes of knowing that I'm within a couple of inches of each other. That will have to be "close enough" in this case. For those keeping track, the lengths so far are:

My gaps are USUALLY tight all the way around each tube but since I'm freehanding all the cuts and generally just flapwheeling the cut ends to clear the burrs I sometimes get low spots that create about a 1/16" gap between the parts.
-G
Try melting a little rod first and use it to bridge the gap (and act like flux on a solder joint) and allow the puddle to form across the gap. That will allow you to put the heat into the metal to form the puddle and minimize a blow through.
Always think - Where is the heat going?
I'm trying not to obsess about the lengths (it's not easy!) so I'm only keeping track for purposes of knowing that I'm within a couple of inches of each other. That will have to be "close enough" in this case. For those keeping track, the lengths so far are:
#2 - 35.748"
#8 - 32.496"
#6 - 34.222"
#4 - TBD
And here's the worksheet that keeps it all organized:
-G
Out of left field question here, but what is the difference in performance between the long tube headers you are creating and something shorter that made a more direct connection to the collector, and could that performance have been gained elsewhere?
Not trying to be a killjoy here but tubes running all over the place trying to get length is a little weird looking to me. Maybe I'm the odd one though.![]()
All I know is that the GM documents for the 502BBC call for a 36" primary tube (1-7/8" diameter) into a 3" exhaust... so that's what I'm shooting for!

1/16" is a large gap on a header tube Greg, that's the thickness of hte material, thats like having a 1/4" gap on an axle bracket weld. Can't you use your big disc sander or a belt sander with some 120 grit or something to debur the end and make it perfectly flat to mate to the next tube?

I think you are obsessing too much about the lengths Greg....
I feel like I am the scorpion and you are the frog that wants to believe that there is a way to change my nature!!!
I feel like I'm going pretty good by looking the other way at a 3" variation between primary tubes... it's giving me the shakes a little bit, but I'm working through it. 
Maybe I missed something but isn't this a crawler? I understand optimizing the exhaust but to what end? The arrangement you have is going to make it extremely hard to get at the side of the motor?? I would understand the fight if you were building race motor? Or trying to make this a 180 degree header because then the scavenge might help more or over scavenge the motor but if you never run it up that high why?? Just because?? Not hating at all just trying to better understand.

I guess that is the thing. You've mentioned already that you can't make them they way they are typically made because of other design choices, so how much are you really gaining by trying to do it anyway? I guess smarter people than me will have to clarify.I'm not sure what length qualifies as "shorty" vs. "mid-length" vs. "long tube"... hopefully Heath can clarify.All I know is that the GM documents for the 502BBC call for a 36" primary tube (1-7/8" diameter) into a 3" exhaust... so that's what I'm shooting for!
![]()
-G

I guess that is the thing. You've mentioned already that you can't make them they way they are typically made because of other design choices, so how much are you really gaining by trying to do it anyway? I guess smarter people than me will have to clarify.
Of course if you just like the tubes like that then carry on!![]()



lol, dammit! Now that's what I think about thinking of my own bald head. doh!I subconsciously think about my own bald head, and wish that I still had a big, thick mop of hair.
-G

it's just about the cheapest, simplest thing you can do to add real power to a BBC engine.
-G

lol.. have a sneaky feeling you could have done a used blower cheaper![]()

Hmmm....yes, I think you're right.
The problem with "cheap horsepower" is it usually involves the use of cheap parts. I probably could have slapped on a pair of Chinese turbos for less money too....!!!!
Don't worry, I'll find other ways to save money on this build later on.
-G

Well yeah!! Because RACE-CAR!!!!!!Maybe I missed something but isn't this a crawler? I understand optimizing the exhaust but to what end? The arrangement you have is going to make it extremely hard to get at the side of the motor?? I would understand the fight if you were building race motor? Or trying to make this a 180 degree header because then the scavenge might help more or over scavenge the motor but if you never run it up that high why?? Just because??

Edit: Greg, I think you should get the tube lengths as close to equal as you are able, that way you can say you did it cause you could!!Quote:
Originally Posted by BARRAZA View Post
Try melting a little rod first and use it to bridge the gap (and act like flux on a solder joint) and allow the puddle to form across the gap. That will allow you to put the heat into the metal to form the puddle and minimize a blow through.
Always think - Where is the heat going?
That is an excellent tip, I was going to suggest the same thing. Sometimes when bridging a gap it may even help to start the arc on the filler rod and melt some in right off the bat so you don't blow through.
That is an excellent tip, I was going to suggest the same thing. Sometimes when bridging a gap it may even help to start the arc on the filler rod and melt some in right off the bat so you don't blow through.
never in my wildest dreams thought I would have something remotely worth while to contribute to this thread!