(3 posts have been added, so you may have to start below)
The frame underwent through an incredible amount of heat, so tubes that used to be parallel may now be slightly deformed and need adjustment. Cutting Ti by hand proved to be extremely tiring, even with the high speed steel cutting blades.
First Head tube was reamed, and then faced. The head tube material is slightly thicker and longer than advertised, so some material must be taken out to allow the headset cups to fit. It must then be faced to provide 2 parallel surfaces.
Next BB was re-threaded, which proved to be the most difficult task of the day, as all the heat on the BB shell rendered it ovalized and in need of major torquing to run the reamer through the BB shell.
Next BB was faced:
Seat tube was then reamed for correct 27.2 mm seat tube. Hole was then cut through seat tube collar and set on bridgeport where vertical slit was cut to finish the seat tube collar area:
Tiny hole on the underside of BB shell was drilled. Usually it would hold the cable guide for cables routed under BB shell, but I'm drilling a small hole just to allow water to escape the frame.
Lastly, frame was aligned. Frame was installed on BB, and spacer was placed just touching the head tube. Long alignment tool was installed in head tube to exaggerate any differences. Alignment measurements were then taken at seat tube near BB, top of seat tube and then taken along top and bottom of head tube.
Ti is really too strong a material to really deform on the alignment table, so it's not really recommended as the strength of the frame is severely compromised in making a perfectly straight frame.
Jim sort of dismissed the importance of frame alignment. While most bike manufacturers would claim to be within 2 mm of frame alignment, the reality is most frames are usually way off of this claim. The mechanic's class used to test alignment on their own frames until guys with $6k Colnagos suddenly did not want to ride their bikes once they realized how off their frames were. While the frame is the chassis to which all components are attached to, most of those components (wheels, tires, cranks) are held to nowhere near the same quality standards of frames.
Jim's bike show here was off by .5 mm, which is really impressive and shows his mastery of his craft. My bike was about 4-5 mm off, but both the top of the seat tube and top of head tube were off the same amount to the frame. This means the head tube and seat tube are perfectly aligned to each other, but slightly misaligned to the BB shell to a very negligible amount.
I didnt have time to really clean the bike up before packing it up and shipping it off, so you'll have to check back later for photos of the finished frame.
Finishing a Ti frame is pretty simple, as it does not need to be painted. The order of finishing the frame is:
1. Bead blast frame very, very lightly to remove any oxygen contamination residue. Some people leave the frame in this condition, but scratches will show.
2. Scotch brite frame. Clean with acetone
3. Frames or part of frames can then be primed and painted if desired.
4. Decals are applied.
5. For a non painted Ti frame, lemon pledge or Armor all is all thats needed to keep the finish of Ti beautifully clean.
I hope you were able to maybe learn a little bit about framebuilding and gain an appreciation for what goes into making a bike. Perhaps more importantly, you've learned a little about frame geometry and can be a more informed consumer when looking to buy a new bike or frame.
I look forward to post photos of finished frame along with the built up bike!
