Final Prep for Right Elevator

May 20, 2010

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Well, after deciding not to work out tonight (in favor of wine), I made it out to the garage pretty late for some final prep work before riveting the right elevator.

Tonight's build partner, 2004 Manyana (play on words) Crianza. A delicious tempranillo from Spain.

On with the building, you say? Fine.

One of the last real fabrication items I have left on the right elevator was enlarging the counterbalance skin dimples. To make a long story short, I don’t have #10 dimple dies, so I dimpled with #8, and then planned on using the AN507 screw head and a nut tightened down to enlarge the dimple enough for the screw to sit flush.

This did not work.

Okay, instead of waiting for a week for a $40 dimple die to arrive, let’s be creative.

Plan: matchdrill two holes in a block of wood, countersink the holes, then use a flush set to enlarge the dimples.

Here's my block of wood, later to be countersunk.

Well, I don’t really have any good pictures of my attempt, because that didn’t work either, and I was getting frustrated.

Finally, I told the girlfriend to come out and listen to me explain the problem. (I knew this would help me come up with a solution.)

Without even flinching. “Why don’t you use a bigger screw to make your dimple?”

my face = <deer in the headlights>

Of course! (Except I didn’t have a bigger countersunk crew, but it set me down the right path.)

This should work. (It's my punch set that came with my rivet gun.)

Setup recreated (I had a piece of tape on the skin to prevent marring.)

The hole on the left has been "enlarged." This worked great!

Okay, let’s move on. Next up, I needed to locally bevel the edges where the spar and tip rib are underneath the counterbalance rib (so the top skin doesn’t show the transition bulges. So I marked those, and also started thinking about how to attach these empennage tips. See the two undimpled holes to the right? Those are two (well, 4, two on top and two on bottom) tip attach points that will eventually be drilled, deburred, and dimpled. Might as well do it now so I don’t have to worry about deburring between riveted sheets.

Lining things up to wrap my head around this interface.

I flipped the pieces over and drilled them to #30.

The top two holes have been drilled and deburred, ready for dimpling.

After dimpling…this #6 screw fits pretty well. (Editorial note: I’m pretty locked in to attaching the elevator tips with screws. I know there is really no reason to take the tips off, but right now, I don’t want to commit to blind rivets.)

That #6 screw looks like it will fit pretty well.

Once the other side was done, I primed the interior (and taped off exterior) side of the counterbalance skin.

Priming. You can see the two #6 dimples at the top of the left side of the skin. (I'll do the rest later...the rest are all accessible in the future.)

While that dries…let’s devinyl!

Hooray for devinyling!

All done. (After using compressed air to blow the flaked primer off.)

Back to emp tip attachment, here are the #6 holes in the skin, dimpled the same way as the counterbalance skin.

Nice big dimples. (Whoa, I forgot to deburr that relief hole on the left there. Fixed after picture taken.)

Let’s get this thing clecoed together.

Those big dimples sit nicely in each other. Here you can see those two holes are the only holes that overlap.

Next, the manual has you rivet the following two holes (not accessible once the spar and tip ribs are in place).

Protected with tape, this rivets were set beautifully.

Without clecos, it's starting to look like an elevator.

Next, “loosely place” the counterbalance in the counterbalance skin and “partially” insert the screws.

The untrimmed (on purpose) counterweight in the counterbalance skin.

last, but not least, they have you insert the skeleton in the skin and cleco together.

Wuhoo! It really does look like an elevator!

Those screw heads are pretty flush. (They are not tight yet, so they'll sit a little better once I get them tightened down.)

A couple pictures of some of the interfaces.

Just behind the counterweight.

Trailing edge of the tip.

Inside corner of the counterbalance rib. (What's that stuff hanging from the top edge? I'll have to investigate later.)

Finally, the trailing edge of the inboard rib.

Ready to rivet!

One more shot.

1.5 hours, 4 flush rivets set.

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Posted by Andrew

Riveted E-615PP Trim Reinforcement Plate

April 6, 2010

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WUHOO, tool order arrived!

3 things in the order, $154.90. Ouch.

Also included was this AWESOME sticker.

Where should I put this?

Here?

Here?

Here?

On the airplane? no.

Finally, the air compressor won.

Decorated air compressor.

Look at that beautiful tungsten bucking bar.

Old and new.

Also, I got two more dimple die sets. #6 and #8, on the right.

Just for comparison. #40, #30, #6, #8. Still need a #10.

Alright, back to work. First up, using the #6 dimple dies on the E-616PP Trim Cover Plate.

Nicely dimpled. I don't think it matters that you take off the blue vinyl. Maybe that was a bad idea.

Here’s the bottom side (top side when mounted on the bottom of the elevator on the airplane).

Peeling off the blue vinyl.

Then, edge finished and scuffed for priming. I’m going to wait to prime this until I can actually by the electric trim motor since you have to drill more holes. Just thinking ahead: can I countersink and use NAS rivets for the trim motor mounting brackets? Nope. These are pretty structural (hold the motor, and therefore the trim tab, in place.) I’m sure those directions will confirm the need to dimple. I’ll need to dimple E-616PP and the brackets that are used to attach the trim motor.

Ready for priming, except for all of the extra holes I have to drill, deburr, dimple, and rivet.

Same deal on E-615PP.

Ready for priming.

On the fancy priming stand.

After shooting primer to one side of E-615PP, I decided to add 4 holes for each of my new dimple die halves.

4 holes drilled.

Tada.

7/32″ seems to work well for holes in a home-made dimple die holder stand.

7/32" is a good size hole for these.

Then, I shot primer on the other side of E-615PP. While I waited for that side to dry, I edge finished E-616PP.

Look at that nice edge. I love the scotchbrite wheel.

Now that E-615PP is dry, let’s do some riveting! I grabbed the K1100-06 nutplates (or platenuts as Van calls them) and the 14 required rivets. Remember from March 28th, I am using NAS1097 rivets here.

I am going to be using NAS1097 rivets here (smaller head than AN426 rivets) so I can countersink (instead of dimple) the holes here. That saves me from having to dimple the nutplate ears, which will save me a lot of hassle.

I finally found the rivet callouts.

I thought that because I countersank (verb tense?) the reinforcement plate that the 3.5 would be way too long, but the -3 was definitely too short. I grabbed 14 NAS1097AD3-3.5 rivets.

-3.5 (length) should work here.

I put all of the nutplates in with a single cleco and a single rivet, taped into place before starting to squeeze them. I hindsight, I should have backriveted these. So dumb.

Half of them done.

Then I did the other half.

Nice and flush. There is one that is almost proud, but doesn't affect the cover plate, so I may not try to muck it up further by drilling it out. We'll see if I can sleep tonight.

Once I got those 14 set, I grabbed the An507-6R6 screws and got the cover plate screwed on.

Ready to screw down. see in the lower left where the shadow under E-616PP is a little bigger? The dimpling kind of warped the plate. I'll have to try to coax this flat again.

I couldn't get the screws in all the way without a lot of effort. Is this normal for nutplates?

Anyway, 14 rivets set in just under an hour. I’m going to mark an hour today (a little long), then short myself on a post in the near future.

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Posted by Andrew

More Trailing Edge Work

March 28, 2010

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After last night’s bad fitting trailing edge, I decided to mark where the dimples weren’t sitting properly, and enlarge the countersink ever so slightly.

The problem is that if you make the countersink large enough to accept the dimple perfectly, you create a knife-edge on the wedge. I guess that is why they have you use the aluminum as a drill guide for the countersink bit. After deburring the few knife edges that I got, it ended up working pretty well, but some of the holes are enlarged a little. With the pro-seal and the double-flush rivets, I am not too worried, but it still bugged me a little. It appears other builders have run into this issue as well.

Another shot of the not so good trailing edge before enlarging the countersinks.

Before I thought I would be able to tackle the rest of the trailing edge today, I got some of the “not-reachable-with-the-squeezer” rivets. here’s a shot of some shop heads for the counterbalance skin to skin rivets.

Decent shop heads.

I also finished up the rivets for the counterbalance rib.

More shop heads.

Then, I installed and removed the counterbalance enough to be able to file away some weight so the lead cleared the shop heads of the interfering rivets.

Nice tight fit today.

Here's the counterbalance. The best file for this left big cutouts, so don't judge me for these.

I also finished dimpling the tip rib and got it edge-finished, cleaned, and primed.

Waiting for primer to dry is like watching a pot of water boil. I can't complain though. It's dry to the touch in about 15 minutes.

Even though that was plenty of work for the day, I decided to tackle the trailing edge. I had everything I needed (Lowe’s didn’t have any RTV, but then I remembered I had some at home from my motorcycle habit, so I was in luck).

Here's me attempting to design a way to keep the trailing edges apart. This sucked, and I ended up using scrap 2x4 in between the stiffeners.

Here’s my tools. RTV, MEK, gloves (I used about 8 pairs) and the tank sealant.

Tools.

Don the gloves, and get ready to mix. I had to read the directions about 15 times before I understood. The hardener (I think) is in the tube part of the plunger. You stick the black piece (behind the big tube) into the hole in the plunger, and as you push the plunger from the bottom to the top, you push the black part so the hardener in the plunger is expelled into the larger tube. Confused yet?

Ready to mix. (I've already cleaned all of the parts.

After pushing the black piece (back on the table now) up to start the mixing process, you twist the plunger head while moving up and down, which starts to mix.

This is after about 75 strokes, which is what the directions say you have to do. I had to keep going. (I may have been doing something wrong, I don't know.) I kept going after this to get a more uniform "black death" color.

Then you unscrew the plunger shaft and screw in the nozzle. Okay, where is my caulking gun? I don’t have a caulking gun. OH MY GOD I FORGOT A CAULKING GUN.

Here it is fully mixed.

That’s okay, I just stuck the handle of a large screwdriver down the tube and it worked great.

Here's one side, ready to be spread out. I put a dab between each hole, and then used a scrap piece of aluminum to spread it out nice and evenly.

Another shot. This seemed to be an appropriate amount of sealer.

After that step, things started getting messy, and I had to change gloves a lot (it gets everywhere), so I stopped taking pictures. After I got both sides covered, I laid it into the scuffed and cleaned trailing edge area of the skin.

Look how good that looks. (Also, you can see my 2x4 spacers.)

Another shot.

Of course, I did a marvelous job putting a perfectly penny sized glob of RTV on the last (aft rivet) of the stiffeners before I removed the wood spacers and closed up. (The wood spacer near the bottom of the rudder was a pain in my ass. I lifted up the trailing edge a little with the top skin, so it stopped squeezing the block, and of course the block slid down toward the front of the rudder. Of course now I can’t let go, but I’m too far away from the other workbench to reach all of my long-reach tools. Ever see one of those situations where a guy has one foot in a boat and one foot on the dock, and he’s stretching and stretching? That was me. Except I finally reached a BFS (big freaking screwdriver) and managed to get the block out without contaminating any tank sealant or RTV.

Here's a blurry shot of the bottom RTV glob. Glob is a technical term.

Then, I got the rudder clecoed to the angle, wiped off any excess sealant, and moved the hole thing to the top shelf of my workbench.

Storage, kind of. I'm going to leave this for a whole week while I start on the elevators.

I think it was 11 rivets.  2 hours before the trailing edge, one hour for the trailing edge. The next post is still from today, but I am tracking it in another section and in another column for total time, so it’s getting its own post.

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Posted by Andrew

Got some more skin…riveted

March 25, 2010

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Before dinner, I managed to finish off the last few things on the right rudder skin and get it clecoed and riveted to the rudder skeleton. I still have to install the counterbalance, finish and prime the tip rib, and get those installed before moving on to the trailing edge, and then leading edge rolling.

I’m holding off on the counterbalance because of the fasteners. The plans call out a AN509 screw and a AN365-1032 self-locking nut to hold the counterbalance in.

I know the FAA (AC 43-13) has deemed that an acceptable method for securing something permanently, but given the fact that I won’t even be able to inspect these fasteners (well, I could tell if they were loose if the screws turn from the bottom side, but would have to open up the tip rib to tighten them if needed), I wanted something a little more permanent (maybe not actually any better, but I’ll be able to sleep better at night).

I’m going to use MS17825-3 Locking castle nuts. They are also self-locking, but these will allow me to drill a hole in the screw and insert a cotter pin. I would bet that I also stick some red loctite on them. It would be a good bet.

Then I started looking around at the other fasteners used on the tail. All of the flight controls are installed using self-locking nuts, no cotter pins or safety wires anywhere.

I thought it would be easy ($20?) to put in drilled bolts with self-locking and cotter pinned nuts, so I made the following order from ACS. This should cover all of the counterweight and flight control connection installations for the tail.

17.00 of MS17825-3 LOCKING CASTLE NUT
1.00 of MS17825-4 CASTLE NUT
1.00 of AN3-10 BOLT DRILLED
4.00 of AN3-5 BOLT DRILLED
6.00 of AN3-7 BOLT DRILLED
100.00 of MS24665-132 COTTER PIN
1.00 of AN4-14 BOLT DRILLED

Then I got started on riveting. I didn’t take these pictures until after I had gotten everything done, so no intermediate shots. Sorry.

Bottom edge of the right rudder skin. This time, I didn't forget the fairing attach strip. (I need to figure out what to do about the last two holes. I'd like to avoid blind rivets, but may need them after all.)

Looking up the rudder from the bottom of the right side.

I got all the rivets my squeezer could reach. I'll have to buck these tomorrow.

There were only two rivets that needed to be drilled out (you can see both marked on the first picture today).

Here's one; the forward-most fairing attach strip rivet on the right side... the squeezer slipped.

Here’s the other one. It’s just sitting a little proud. Probably okay, but I am anal about this stuff.

Guess what I am planning on doing to this rivet.

Also, I noticed something about the alignment of the rudder top fairing attachment holes. Look at the holes on the left side of the picture (lined up from one side to the other) and then look at the holes on the right side. It appears as if Vans put the aft-most holes in slightly different spots so the fasteners wouldn’t hit each other when installed due to the low clearance in that area.

At first I thought there was something wrong, but then realized they were just thinking ahead. Bravo.

One hour today.  18 rivets on the bottom edge, 48 on the leading edge, and 6 where I could reach on the counterbalance skin to right rudder skin lap joint. That makes 72 total for tonight. 1333 total set, 85 drilled out for a batting (drilling) average of 6.38%.

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Posted by Andrew

More Stiffeners, Some Skeleton

February 26, 2010

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Yes, Friday night! That means instead of being social, I get to stay home and work on the airplane. Wuhoo!

Anyway, after a good workout, I spent a couple hours in the airplane factory. First thing, I grabbed the two primed stiffeners from last night, and got them backriveted in.

#5 and #6 of 8 on the right rudder skin.

Then, I edge finished, scuffed, cleaned, and primed the last two stiffeners on the right skin. Once they were dry, I got those installed permanently, too.

#7 and #8 (two on the far left) of 8 on the right rudder skin.

I couldn’t help myself. I flipped the skin over, and removed the tape to reveal a very smooth skin. I like backriveting. The backriveting plate left some very very very small marks within about a dime sized area around the rivet heads, but I know those will polish out.

A finished right rudder skin. Those wrinkles in the vinyl in the middle where there when the skin was delivered. It didn't look like there was any damage underneath.

After spending some time admiring the right skin, I decided to finish the edges for the left skin’s stiffeners. After that, they got scuffed, cleaned, and set up on my fancy priming bench. Here they are ready for primer.

8 left skin stiffeners, ready for primer.

While those dried on one side, I decided to dive on in to the rudder skeleton. First, they have you cleco the R-904 root rib to the R-902 Spar. Tough step, but I managed.

Started on the rudder skeleton.

Then, because it was late, I had to skip the steps with the drilling and the fabricating the “shim” etc. I moved on to clecoing the spar reinforcement plates in. Here are the top two.

Fancy pants, huh?

Then, they have you grab the R-909? (tip rib) and R-912 counterbalance rib and cleco those to the spar after fluting, if necessary. It was necessary.

R-912 Counterbalance rib on the left, R-909 tip rib on the right. You can see I fluted the tip rib too much toward the aft end (top of the picture). I'll straighten it out tomorrow.

After that, they have you cleco the dreaded counterbalance skin to those two ribs. I’ve heard bad things about this step (mostly difficulty due to bad fit). Well, it was slightly difficult, but mainly due to perfect fit. If you start from the front (bottom right of the picture), everything will work out, but the fit is pretty precise. There is no slop in these prepunched kits.

The right side of the counterbalance skin clecoed on.

Then, I flipped the assembly over and clecoed on the left side of the counterbalance skin.

Left side clecoed on. (Hey, you can see my fancy fluting pliers back there.)

By then, the remaining stiffeners were dry on one side, so I shot the other side with primer and headed in for bed. (For blogging, and then bed.)

asdf

66 rivets today, all backriveted. Also, I passed 1000 rivets set today. A little bit of a milestone, although I think there are something like 20,000 rivets in the whole kit. So, I guess I’m 5% there.

Good night.

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Posted by Andrew

More VS work

January 26, 2010

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Last night I spent a little bit of time rearrange (cleaning) out the workshop. Now, I’ve got a little more room to maneuver. (Mostly, I just moved my second workbench a little left, and moved the shop vac over by the compressor, now the walkway to get into my workshop area is a little more open.)


Slightly different layout for the workshop. I like this.

Tonight, I started by disassembling the vertical to start the deburring, dimpling, countersinking, cleaning, priming, and then reassembly dance. Here I am set up in front of the UNC game for some deburring.

Ready to deburr some holes. Don't judge me for drinking white. We had red snapper for dinner.

After what seemed like a thousand holes to deburr, I broke out the 3/32″ tank dimple dies and the 1/8″ regular dimple dies (for the rear spar) and got ready to dimple. Dimpling is much easier than deburring, and fun, too. I know deburring is important, but I feel like I’ve made progress after dimpling.

Ready to dimple.

Then, I started dimpling the ribs and spars. Here are the 3/32″ tank dies in action.

3/32" tank dies in action.

Here I am using the 1/8″ regular (shallower) dimple dies on the rear spar. I had to triple check both the holes and the direction before proceeding. This is correct, I think. (Flush rivets on the forward side of the spar.)

1/8" dimples on the rear spar. These are my first 1/8" dimples.

After finishing dimpling, I grabbed the skin and brought it inside to devinyl. Devinyling is a lot easier indoors, where the vinyl is room temperature. I tried pulling off the horizontal stabilizer vinyl in the garage when it was near freezing, and it kept tearing and was very stiff.

Waiting for the soldering iron to heat up.

After using the soldering iron and a wooden straight edge (the metal straight edge carries heat away too quickly, and you don’t get a melt line), I got to pull off the vinyl. For some odd reason, I find devinyling very cathartic. I love pulling off the blue to see the shiny aluminum underneath.

Pulling off the vinyl on the inside of the skin.

Ready to pull off the blue vinyl on the exterior of the skin.

Ready to devinyl the outside of the skin.

And finally, the vertical stabilizer skin devinyled (and everything carried back out into the garage).

Pretty skin. Also, that's me in the reflection.

Here are the ribs and spars all deburred and dimpled. (I still have to countersink the front side of the VS-803PP.)

Ribs and spars deburred and dimpled.

Next up, countersinking the rear spar reinforcement then deburring, dimpling, and scuffing the skin. Then priming, then I get to put this sucker together.

I can’t believe how much faster the vertical is than the horizontal. Part of it is the learning curve, but I think they should have you start with the vertical. Much easier, in my opinion.

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Posted by Andrew

VS Assembly and Matchdrilling

January 24, 2010

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First thing after breakfast, I snagged the two VS spars and the spar reinforcement and headed into the kitchen to finish some surface prep. After about an hour, I had all three pieces scuffed up, cleaned, and back outside. Here is a shot during scuffing. You can see the top half has been scotchbrited and the bottom half is the raw part after removing the blue vinyl.

You can even see my hand and the camera in the bottom half.

Here’s the spar reinforcement before finishing.

Rear spar reinforcement.

All three after scuffing. (Along with the ribs from last night.)

Looking good.

Then, I bent the rib flanges to exactly 90 degrees using my new hand seamers, and fluted the ribs.

Fluted, ready for assembly.

I started clecoing the rear spar doubler to the rear spar, and then realized they want you to put the hinge brackets in now. I quickly located VS-410PP, VS-411PP, and VS-412PP, and got the Goo Gone out to help pull these stickers off.

These part number stickers are a pain in the butt to get off cleanly.

While I waited for the Goo Gone to do its magic, I decided to start clecoing the front spar and ribs together. You can also see the rear spar and rear spar reinforcement in the upper left corner of this picture.

Tip rib attached.

Then, I clecoed in the rear spar. Here, you can also see the hinge brackets waiting for the Goo Gone.

Middle rib attached.

Finally, I clecoed in the root ribs (fore and aft).

Root ribs attached.

Then, I cleaned off the hinge brackets, got them clecoed to the rear spar, and clecoed the rear spar to the front spar and ribs.

Looks like an airplane again.

I followed Mike Bullock’s advice and clamped the rear spar to a couple of 2x4s. This let me matchdrill the rear spar vertically, which helps a lot with getting a perfectly straight hole.

Rudimentary VS jig for matcdrilling the rear spar.

Here’s my process. Cleco every other hole, match drill, mark the drilled hole with a dry-erase dot, move the clecos, repeat. Here, you can see my dots.

Dry-erase dots help me know which holes I've drilled.

After finishing up the ones you can reach from the aft side of the rear spar, I flipped the whole assembly over and match-drilled the two remaining holes (that aren’t drilled in the upper half of the lower set of hinge brackets).

12" bit doing its thing...

Next, we get to cleco on the skin, wuhoo!

It looks like another airplane part.

Then, time to matchdrill the skin to the spars and ribs. Same process here. Cleco every other hole, drill, mark dots, move clecos, repeat.

Match-drilling the skin.

Here, you can see that I am in the middle of moving clecos. The one in the center of the picture gets moved one left (into the marked, already drilled hole), then the one to the left of that gets moved one left, and so on.

Example of brand new cleco on the left, and two used clecos in the middle. Eh, they work just fine, they're just not as pretty.

I got the left side of the vertical match-drilled, then flipped it over, took this picture, and then headed inside.

Ready for the second side of match-drilling. Maybe later tonight or tomorrow.

3.0 solid hours today. Good work all around.

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Posted by Andrew

Rear Spar work

January 19, 2010

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I didn’t mean to spend a lot of time in the garage tonight, but I ended up spending about 2.5 hours.

The only thing left I have to do on the HS before getting the rear spar on is…finishing the rear spar. First thing, finish edge prep, then some more scotchbriting and finally cleaning in the kitchen (“get that airplane part out of the kitchen!”). Here are the parts ready to go inside for some cleaning. You can see the PermaGrit block I’ve been using to edge-finish.

Nice and scotchbrited.

While I was waiting for those to dry before priming, I pulled off the vinyl off one of the right HS interior bays where I had forgotten it from the other day.

Clean interior!

Then, I scurried outside in the cold to prime the rear spar components (HS-603PPs and HS-609PPs), and came back inside to finish devinyling the other interior bay.

More clean interior!

Then, after quick two-hour break for dinner and a couple TV shows, I went back outside after normal bedtime once I knew the rear spar parts had dried. Here they are clecoed together with the elevator center bearing (VA-146) and the hinge brackets.

Rear spar clecoed together, ready for riveting.

Then I broke out the squeezer to squeeze some rivets. Why not?

My first action shot!

This took most of the build time tonight. Here are some shop heads for your enjoyment. Not perfect, but they all pass the rivet gage test.

Shop heads.

Then, I needed to bolt on the VA-146 center bearing. Time to go find some hardware. After a short search, I found the bolts (the correct ones are the short ones on the right).

4 bolts for the elevator center bearing bracket on the right.

Then I found the washers (the ones you are looking for are the thick ones). There were 24 of them in the bag. (Stop judging me for not putting all of my hardware in separate trays. Using the inventory sheet and the bags has worked well for me so far.)

Washers installed.

Then I found the nuts. I didn’t torque anything down yet, just finger tight. Need to get some torque seal soon.

Nuts!

Alright, time to go inside, it’s getting late. Here are a few pictures of the final product tonight.

Nice and riveted rear spar. For those of who who don't have the plans in front of you, there are a couple sets of empty holes. They get riveted to the HS skeleton. I didn't forget anything, I promise.

A more artsy shot showing beautiful machined heads. I love the look of the rivets on the grey primer.

So pretty.

And one more shot, just because I can.

Rear spar, ready to be installed into the HS.

120 rivets set today. I’ll have to drill out a couple of the AN470AD4-5 rivets they have you set in the outboard hinge brackets. The instructions insist the rivet callouts on the plans is correct, but they seemed a little long. In a few cases, the shop heads cracked on a diagonal (I’ll try to get a picture of this tomorrow) so I’ll have to drill them out and replace them. Not bad, though. My riveting drill-out batting average decreased from 10% to 7.3% today. Good day!

For future reference, I finished up my second can of self-etching primer. I did prime the whole practice kit, but still, that is a lot of self-etching primer. I think on the next can, i am going to weigh the full can, then weigh the empty can. Then maybe I can make a rudimentary guess at the weight of primer I’ve used. (Ignoring the weight of the compressed gas in the container.)

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Posted by Andrew

More Right HS Riveting

January 17, 2010

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After a nice day off (had to work), I got back in the garage this morning for some good progress.

I started off by assessing the damage from the other day’s skin denting fiasco. I contemplated removing HS-707 entirely (from the top skin, too) so I could really get in there and smooth this sucker out. I even got everything mocked up in the c-frame again to look at the feasibility of getting rid of this dent. Then I decided I would have probably caused more harm than good, and that it looked a lot better today than it did the other day. After re-clecoing HS-708 into the skin with HS-707 and re-riveting the bottom skin to HS-707, I took this picture. The dented area is between the bottom two rivets in the picture. It’s really not that bad.

The denting between the bottom two rivets is really not that bad. And, it's on the bottom of the right HS. No one will look there. Unless you are reading this, and come to see my airplane, and want to see the dent on the bottom of the right HS. Damn you.

Anyway, with that done and behind me, I clecoed in the front spar assembly from Friday.

Upside-down HS assembly after starting to cleco the front spar (already riveted to the left HS skin) into the right HS skin.

CRAP! I forgot to remove the blue vinyl from the inboard bay before clecoing everything together. Okay, let’s un-cleco, remove, the vinyl, and recleco. Great. After inspecting (admiring, really) the assembly, I noticed a loose rivet (as opposed to a prude rivet. Hehe.). It was one of the two forward HS-707 rivets (by the denting). Grrr. Okay, should I un-cleco everything, and risk scratching everything in the process, or drill out two small rivets in the HS-404 to get my arm in there. I decided to go with drilling, since apparently I am really good at drilling rivets out. Without any issue, I got HS-404 removed and reached in to replace the offending rivet (second from the right in the picture).

HS-404 removed so I could reach in to replace the loose rivet.

Then, I reinstalled HS-404. (But took this picture before I actually riveted it to HS-702 (front spar) and HS-405 (aft root rib) behind the spar. Just pretend there are perfectly driven rivets there.

HS-404 reinstalled and the rest of the skin clecoed together.

Time to skin rivet. I like this part. Here is my technique. I stick the appropriate sized rivet in the hole, cover with blue tape, then reach in with the bucking bar, and shoot with my flush set, which is also covered in blue tape. Then, I remove the rest of the clecos, put rivets in again, and move all this little pieces of blue tape over one. (Then I figured out that on the second round, I could remove all the blue pieces of tape and run a whole line of tape along the line. I just had to make sure verify which rivets I had the bucking bar behind by pushing up on it a little. you can then see the rivet pushing up behind the tape. Bucking bar in place, I can set the gun down on the rivet and shoot.)

If you were counting, you noticed there are now two pieces of blue tape between the flush set and the rivet (and my fragile HS skin). This worked well for me, prevented further damage, and gave me some friction to help keep the set in place.

Rivets ready to set, covered with blue tape.

So, I knocked out all of the rivets needing to be bucked (I think it was 42 per side) before inspecting all my work for any issues. I think I found 5 skin rivets I wanted to replace. Here is a good example. The shop heads of all of these look great, but I want those rivets perfectly flush. I didn’t take an after picture (sorry), but I assure you, the one on the right now looks like the one on the left.

Bad rivet on the right. Replace.

After bucking all of those, I moved the now very big HS assembly to the floor while I cleaned off my workbench. Nice and clean again.

Clean workbench!

Then, I brought the HS back up on the table to squeeze the rivets that could be squeezed on the HS-601PP (skin) to HS-404 (inboard tip rib), HS-405 (inboard aft rib), and HS-706 (tip rib). The instructions have you leave 5 holes open on the inboard lines for the empennage fairing attach holes on the top only, but I decided to leave the same holes empty on the bottom for now, just to have clecos there on both sides to hold the HS off the table.  I also left some clecos in both sides of the tip ribs (although I left less on the right than I had on the left the other day, so I squeezed a few more on the left. ) Anyway, the HS is upside-down here. Left side is in the foreground.

Oooh, pretty.

Another shot. Still need to get that rear spar done. Look in upper right side of the picture. The dented area (I really shouldn’t call it dented anymore) is in the middle of the leading edge there. (I know the picture is from a distance, but the point is it’s not that noticeable.)

More pretty!

And after I flipped the HS right side up.

Shiny and clean.

After a hard day’s work, I stood back and admired the almost finished product.

I need a bigger workbench.

Good 3.5 hour day today. 146 rivets set, 14 drilled out.

Next up:

1) Remove rest of blue vinyl from inside of HS.
2) Rear spar work.
3) Finish riveting holes in HS.
4) Figure out what is going to “fly” when I finish the HS.
5) Hang HS for storage

I also decided that I am going to keep a separate page for tips. I keep learning these little tricks along the way. I should write them down.

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Posted by Andrew

Left HS Riveting

January 10, 2010

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Today I started left HS skin riveting.

The big takeaway is that I hate squeezing AN470AD4- rivets. For some reason (it’s gotta be user error), I keep bending them over. Finally, I broke out the gun and got some rivets set. I think I may need a better bucking bar. The fact I set some really nice rivets with the crappy bar means that a tungsten bucking bar will probably be my favorite tool.  Anyway, first picture is me riveting HS-710 and HS-714 to the left HS-702 front spar. You can see the two rivets in the upper right side of the picture needed to be drilled out. Oh wait. They all needed to be drilled out. See how I put the manufactured side on the thicker material here? Wrong, drill them out. That’s one of the reasons I drilled out 11 rivets today. I didn’t get all of these reset, but I did get the ones that would be inaccessible once I started riveting on the skin. In the picture below, I set the six behind the HS-404 rib, and six of the ten in front (lower right) of the HS-404 rib. A few of those bent over again, so I called it quits on this part and moved on. I’ll have to drill out more rivets tomorrow. Ugh.

Squeezed, and then drilled out HS-710 and HS-714.

Next, I started some skin riveting, with the HS-707. You can see my first two skin riveting shop heads.

My first two flush rivets (well, first two on the skin).

Then I shot two more and took this picture. Sorry about the fingerprint smudges. Rest assured, the skin is nice and smooth.

First 4 flush rivets on the left HS. They look so good.

Finished up the top, and then riveted the bottom (except for the last bottom skin rivet, the bottom 1/8″ cleco prevented the bucking bar from getting in there, so I’ll set this after I remove HS-708). The second and third rivets on the bottom need to be replaced. They are probably okay for such a non-structural area, but I am a perfectionist.

After riveting the top and bottom skins (to HS-707). Except the most aft skin rivet on HS-707. (See the lower 2nd and 3rd rivet from the right? Those shop heads are too small. I'll need to replace those.)

Drilled them out, and replaced them. They look much better now.

Replaced with AD3-4 instead of AD3-3.5. I don't know why these needed longer rivets when every other rivet looked okay.

Next, I finished riveting HS-710 and HS-714 (front spar reinforcement angles) to HS-702 (front spar). Shop heads on the thicker material.

HS-710 and HS-714 successfully riveted to the front spar.

Here’s a closeup of the two replaced rivets.

Another closeup of the HS-707 rivets.

Next, they have you cleco in the front spar and cleco HS-708 (what I am calling the middle aft rib) into place. (Ha, the Yard gave me a long reach 3/32″ cleco in my bag of used clecos. You can see it on the upper left.)

Clecoed the front spar and HS-708 in place, ready to blind rivet.

One of the LP4-3 blind rivets set. I had to grind down my cheapo National Tool and Equipment blind rivet puller. Not hard, took about 5 minutes, and ended up working really nicely in here.

First blind rivet on the project. (I think it's an LP4-3.)

And all three complete.

All three blind riveted. Time to move on.

Here, I got a shot of my painter’s tape covered bucking bar just after bucking the lower tip rib rivet.

Riveting HS-706 (tip rib) to HS-702 (front spar). I think I could have squeezed these if I had unclecoed the skin a little, but I was feeling good about shooting them, and I'm not a fan of squeezing AD4- rivets since the "let's have fun squeezing and drilling out 9 rivets" fiasco this morning.

I like these rivets. They gave me no problems.

Done!

Next, I started setting the skin to front spar rivets. I shoudl elaborate on my technique a little here. I would remove a cleco, put in the AN426AD3-3.5 rivet, put some blue painters tape over the rivet, then shoot and buck it. The tape did wonders to protect the skin from any blemishes caused by the flush rivet set. I taught myself this trick after scratching the hell out of the practice kit. (note: I wish the practice kit had more AD4- rivets in it.) Anyway, these all look sufficient…

The first skin to spar rivets on the top.

I managed the rest of the HS702 (front spar) and HS-708 (aft middle rib) to skin rivets. There were 42 of them. On each side. I wrapped my bucking bar in blue painters tape to protect the skeleton from dings and scratches. Worked like a charm. I’ll replace all of the tape then next time I have a big rivet day.

I wrapped my bucking bar in tape. Here is the result after 113 rivets today. (Well, 124, I had to drill out 11 rivets.)

Here are some after shots. The HS is upside down, so even though this is the left HS, we are looking at the tip rib here.

All done. I may go back and see if there are any underdriven rivets in here. I was being rushed back into the house for dinner after I finished riveting.

Looking at HS-708 and the blind rivets holding it to HS-702 (front spar) and HS-707 (middle tip rib). It looks like the spar is scratched here, but it is really just a couple scuffs from my knuckles and the handle from the blind rivet puller.

More after pictures.

This is looking toward the center of the airplane (toward HS-405, aft inboard rib)

And again.

No closeups, because I didn’t clean off the skin yet, but still, it looks so nice. Also, I need to remember to stop dripping air tool oil all over my workbench.

Hooray for a riveted skin. It looks like it might fly one day.

After I got all the riveting done, I started peeling off the blue vinyl from the interior. The primer on the vinyl flaked off as I peeled, and it got everywhere. I don’t know how to prevent this, though, and after a quick sweep with the vacuum, it looked wonderful again. Before I close up, I’ll probably wipe off the unprimed aluminum with acetone or similar to make sure I have all the fingerprints (oils) off.

Removed the blue vinyl on the interior. Me likey.

I also got a half hour of right HS skin deburring tonight. We’ll see.

Noon to 1pm, 1:30pm to 4:30pm, then 9-9:3pm while watching the UNC/VT game. Go heels. 4.5 very productive hours.

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