I finished deburring the remaining parts for the forward fuselage, and dimpled the ones that were already primed (the forward fuselage ribs):
Most forward fuselage ribs deburred parts
Dimpled forward fuselage ribs
I also did some work in planning for the fuel system. Since I plan to use the EFII System32, I followed the steps from others who have run hoses for it, and may end up getting the hose kit from Aircraft Specialty, so I followed their instructions, starting with enlarging the systems brackets holes - the original one is the right size for a 1/2" snap bushing (plus another which is meant for brake lines and thus much smaller), but I'm planning to use 3/8" fuel hoses with grommets, so I enlarged it to 5/8" for the grommet). I did this by transferring the holes to a backing piece, enlarging them to the right direction on the backing piece (away from the screw hole and away from the top bracket edge), then transferring back with a unibit:
Transferred existing holes to a backing piece
Enlarged holes in backing piece, to transfer back to brackets
Enlarged systems bracket holes
Systems bracket with grommets
Of course I did screw up and had to re-make two of those top brackets :)
I also enlarged the forward fuselage rib holes to 9/16" for the fuel return lines:
Enlarged center hole for fuel return line (before deburring)
I added a hole for those lines through the side skins and center section side plates:
Hole position on the side skin for fuel return line
I'm not going to install the forward doubler just yet - the aft tunnel is harder to rivet in (with the heat tee over the spot), so I'll just add that one for now).
Next up, a bit more deburring and then primer and riveting to complete this section!
Time lapse:
Total forward fuselage ribs and bottom skins rivets: 0 Total forward fuselage ribs and bottom skins time: 61.3h
For antenna positioning, I tried to put the forward tunnel parts around the place they'd go, and reailze it gets really crammed in there (plus, forward of the fuel valve goes the EFII pumps, filter, etc.):
The forward tunnel gets pretty crowded
Photos of the fully-assembled tunnel from others also seem to confirm that.
so I'm now reconsidering the TAS antenna position - putting it in the aft tunnel may be well worth the trouble of running the cables to it, and on the upside that'd bring it close to being aligned with the top antenna - so I checked whether there's clearance for the cables below the pushrod, and there seems to be enough:
Potential position for the TAS antenna in the aft tunnel
Just to give me some margin for decision, I'm going to add doublers to both places, and decide later.
Furthermore, I looked at the G5 installation manual and realized that it has an internal antenna - unclear if that'll be enough, but I'll be holding off on adding a third GPS antenna for the time being, and if I do I may add it to the top of the dashboard, just for some installation diversity.
I had previously planned the antenna positions both disconsidering convenience of mounting the antennas, and assuming I'd have the MotoPOD on the bottom. Given this, I took some time to re-plan their placement taking both into consideration (click on any of these for a larger version - original file here). In these drawings, the solid circles are the ideal ground planes, and other circles are additional restrictions.
Top view - ELT, Stormscope, COM, GPS and TAS antennas
I no longer need separate UAT and transponder antennas. Given that Garmin requires a minimum of 3' of cable from the transponder to the antenna, I moved that antenna to the rear part of the tailcone:
Side view with all antennas
Bottom view - transponder, COM, NAV and TAS antennas
I added a third GPS antenna - one for the GTN, one GPS+XM for the G3X (PFD only), and one for the G5.
TAS antenna details - ideal and minimum ground plane plus distance to other antennas
I moved the bottom TAS antenna to inside the forward tunnel, since the aft part of the tunnel has no easy way to run cables to it, and very little clearance near the skin, with the elevator pushrod going through it. The distance between the top and bottom antennas is about 21", which should add a bearing error of about 0.2˚ for a target at 1 mile (perfectly acceptable, I doubt the TAS has that level of precision anyway):
Distance between the two TAS antennas - this introduces ~0.2˚ bearing error for a 9 or 3 o'clock target at 1sm
With the transponder antenna moved aft, I'll try using the original XPDR antenna hole for my bottom COM antenna. It's unclear what kind of performance I can get from the ground plane at that location, but since the ground plane area is only about 20% smaller than the top antenna's, I'll just plot the VSWR after the tailcone is attached and see (and if that doesn't work, I'll add another hole in the baggage area and plug this one).
COM ground plane area is ~1371sqin (ideal is ~1662sqin, ~20% more)
I was also briefly worried that the tailcone antennas might be too close to the ground in a maximum takeoff rotation position, but a quick measurement showed that's not the case (i.e. the tail would hit the ground first):
Tailcone antenna ground clearance at maximum rotation attitude
Given that none of these require any structural changes for now (only the top TAS antenna will give me trouble), I'm deferring any installation steps to later when I actually have the avionics - who knows what else may change until then.
The outboard rear seat ribs weren't aligning with the skin holes, so I had to flute them, which was quite annoying when already attached (I even got a smaller fluting plier just for this):
Fluted outboard rear seat rib
I match-drilled them properly and removed the skin, then started deburring and dimpling all the ribs and bulkheads for
Deburred and dimpled ribs
All center section bulkhead holes and the holes with tabs on other bulkheads were machine-countersunk:
Machine-countersunk holes on aft center section bulkhead
Dimpled and machine-countersunk holes on rear spar bulkhead
Dimpled and machine-countersunk holes on fuselage bulkhead
Next I need to deburr and prime the skins so I can start riveting them on.
Time lapse:
Total mid-fuselage ribs and bottom skins rivets: 412 Total mid-fuselage ribs and bottom skins time: 75.0h
Forward + aft portions of the fuselage attached together for drilling
I measured the wing spar at exactly 1.7" thick. When I first attached the center spars with spacers, I instead measured it at close to 1.8":
Spacers measured around 1.8" (should be 1.7")
Turns out that the thickness of the blue vynil adds up quickly, and 28 layers of it per set of spacers wasn't helping. I removed it and deburred the parts for some extra smooth coupling:
Spacers with all the blue vinyl removed
That got me almost all the way there (about .02" to go):
Spacers much closer to 1.7"
Since the spacers were slightly curved, I just applied force to make them flat. I could have torqued the nuts, but I don't have a torque wrench that can do the required 1100in-lbs (will order one for when I need to attach these semi-permanently until the wings are actually attached), so I instead just squeezed them with clamps - first with my usual plastic clamps, which did pretty much nothing:
First attempt at compressing spacers, using regular clamps
Then I used the heavy-duty clamps with some felt padding (idea credit goes to the wife):
Successfully compressed spacers with heavy-duty clamps
and with that, holes were magically aligned :) so I final-drilled all of those, and started deburring some of them.
Time lapse:
Total forward-fuselage bulkheads, ribs and bottom skins rivets: 0 Total forward-fuselage bulkheads, ribs and bottom skins time: 44.4h
I modified my #30 dimple die using the grinder, to dimple the bottom-most holes in the firewall bulkhead:
Modified dimple die for dimpling the bottom holes of the firewall bulkhead
then continued riveting:
Fully-riveted firewall forward side
Fully-riveted firewall aft side
With this, the only parts missing on the firewall are sealant (which I plan to apply later) and the rudder pedal brace (which I didn't want to install until I figure out how it'll work with the ControlApproach pedals).
Time lapse:
Total firewall rivets: 596 Total firewall time: 58.4h
We finished riveting fuselage bulkhead and baggage ribs:
All mid-fuselage ribs and bulkhead riveted in place
I clecoed the bottom skins on and final-drilled all the holes:
Mid-fuselage section with skins on
The floor stiffeners required some fluting to line up properly, then they were final-drilled as well:
Floor stiffeners, fluted and final-drilled in place
Mid-fuselage section with skins and floor stiffeners only (it barely clears the ceiling!)
I found that the holes from the skin to the outboard seat ribs don't align :( so I'll need to flute that part, which will be especially tricky with it already riveted in place:
Since I only have a vise-grip-style fluting plier, which would be even harder to use in this space, I've ordered a regular plier from Spruce and will give that a try when it gets here - I have plenty of other holes and edges to deburr in the meantime.
Time lapse:
Total mid-fuselage ribs and bottom skins rivets: 412 Total mid-fuselage ribs and bottom skins time: 67.5h
With the parts all primed, I started by riveting various small parts to the ribs:
Step mounting brackets and seat rib subassemblies riveted together
Of course, while doing this, I realized that two little parts had been forgotten when doing primer :( so one more primer session had to be done:
Two seat belt attach lugs I forgot to prime :(
I got lazy this time and decided to do it with rattle-can primer. The color difference doesn't really matter since any apparent parts of the interior will be painted anyway:
Rattle-can-primed seat belt attach lugs, riveted to the rib
I also inserted the heat tee, which allows me to continue riveting the ribs:
Rear tunnel with heat tee installed
I riveted some of those ribs so far:
Most rear seat ribs have been riveted in place
Time lapse:
Total mid-fuselage ribs and bottom skins rivets: 326 Total mid-fuselage ribs and bottom skins time: 55.2h
I dimpled then started riveting the firewall parts by the forward seat ribs (aka tunnel), adding all the nutplates, the inspection panel backing plate, the fuel valve attack bracket flanges, and the scat tube support:
Inspection panel backing plate/cover, fuel valve flanges and scat tube support with nutplates riveted
Forward fuselage ribs with nutplates, inspection panel backing plate, nose gear tension fittings and fuel valve bracket flanges riveted on
Forward fuselage rib riveted to nose gear tension fitting
I then dimpled the recess box and the firewall bulkhead to accept the rivets:
Dimpled firewall bulkhead
and finally started riveting it all together:
Firewall bulkhead with most parts riveted to it
Forward side of the firewall bulkhead, with most parts riveted to it
In the process, I also realized that the rivet gauges I have don't match Van's spec - Van's allows smaller shop heads overall, and with some of the rivet lengths they specified, it's impossible to get to the gauge's "official" spec. This applies to most firewall bulkhead rivets, so I had to measure those with a caliper - specifically, the gauge has a hole that's about .19", and the spec calls for .163". The height was almost right on the gauge - the gauge has .06", and the spec is .05".
"Standard" rivet gauges don't really match the MIL-spec that Van's recommends
There's still quite a bit of riveting left to do, but this is a good start.
Time lapse:
Total firewall rivets: 512 Total firewall time: 49.9h
