Rudder counter weight

Tonight I covered just a couple of steps in the plans, fitting the rudder counterweight into the rib that will hold the weight. This was a quick process of final and match drilling a couple of #12 holes (drill size), deburring, dimpling (for a #10 screw), then counter sinking the lead weight to fit. I used the drill press to get nice straight holes, and it came out perfectly.

My adjustable set for my pneumatic squeezer should arrive on Thursday, which will allow me to finish the Vertical Stabilizer. I’m also about ready to prime the rudder components, as I have done as much as I can before I need to start assembling parts.

Rudder Prep

I had my initial tech counselor meeting tonight, which was very helpful. Everything looks good, except my 1/8 rivets are slightly under-done. While they are all 1.5x the diameter by the calipers, the rivet gauge shows them slightly under “ideal”. I will fix it easily by squeezing them all slightly more. I ordered an adjustable squeezer piston from Plane Tools, which will allow me to fine tune the squeeze, rather then having to use the washers as spacers which is slightly less accurate.

I then spent some time deburring rudder skins, and final drilling the rudder counterweight support ribs at the top of the spar. Despite the plans indicating otherwise, I found that the top two holes where the spar attaches to the top rib were already final size.

Rudder prep

I spent time today deburring rudder parts, fluting ribs, radiusing leading edges of ribs, reading plans, and some other tasks such as drilling out a couple of holes in the rudder skins. I realized I needed a few more tools, including a pop rivet dimple die with 120 degree head (vs 100 degree for solid rivets). I ordered the new parts from Cleveland Aircraft tools, as they have been super helpful in the past (as have all other companies I’ve worked with so far), and also picked up some 3M tape for the trailing edge.

Forward spar riveted

My dad helped me again today and we spent several hours in the garage working this afternoon. We started by riveting together the ribs and forward spar for the Vertical Stabilizer. The 8 rivets ended up taking longer than I expected, as we tried to ensure the rib flanges were tight against the spar. With the use of some small clamps we were able to hand squeeze the bottom rib rivets, which came out great. The rest of the rivets were good except for the last one on the top rib, where a gap formed between the rib and the spar flange. Not really sure how it happened, but there’s not much clearance in there and it lifted just a fraction. I’ll check with my tech counselor tomorrow, my guess is it’s ok. Shouldn’t be hard to drill it out if needed and redo. It was a huge help having my dad to help hold parts and double check alignment, etc.

I’m going to leave the Vertical Stabilizer here and wait for my tech councilor visit before proceeding. So we moved onto the Rudder, and started by separating and deburring the various skin stiffeners and flanges. We wrapped up after final drilling #30 holes in the rudder spar for the shims and doublers.

Riveting Vertical Stabilizer

With the primer coat looking ok, I proceeded to start riveting parts together. First up was the doubler plate on the front spar, then the rear spar doubler and hinge attach brackets. For the front spar plate I used the pneumatic squeezer. For the rear spar, the pneumatic squeezer wasn’t viable. The -6 and -7 rivets were too long for the pneumatic squeezer with the yokes I have, and the squeezer couldn’t develop enough power to squeeze the rivets. I need a yoke with a wider throat to allow me to use it with those longer rivets. So I used the hand squeezer to do all the rear spar rivets. It came out looking good.

Priming Vertical Stabilizer

I finally had some time back in the garage tonight after a few days away with the family, and waiting for some painting supplies to arrive. My dad helped me prime all the parts for the Vertical Stabilizer, which turned out to be a frustrating job. I’m using Stewart Systems EkoPoxy to prime, which seems like a great product. All of the frustration I ran into could be attributed to a lack of experience, since it was the first time I have used the products and equipment. The process involves three steps; cleaning, etching and then priming. Stewart offer three products to do this; EkoClean, EkoEtch and (in my case) EkoPoxy. EkoPoxy is a two part, non-toxic, water based, epoxy primer. The benefits are great adhesion, light weight, and easy clean-up. I used 100 grams of epoxy base, and just managed to cover the Vertical Stabilizer parts, including the inside of the skin. I was debating whether to paint the skin or not, and eventually decided I’d feel better knowing it was coated.

The cleaning process was easy, as was the etching. I used a maroon scotchbrite pad to manually and chemically etch the parts, then washed it off with warm water, then high pressure hose to blast off any remaining etch.

Then the priming began. We mixed up 100 grams of base (150 grams once hardener and water applied) paint and set up the spray gun. I’m using a 3M gun with 1.4mm nozzle. It took some time to set it up, first getting the right amount of pressure to the gun, then to adjust the fluid flow to get an even spay pattern. It was dark by the time I started painting, and found it hard to see how much paint was being applied due to the lighting situation in the garage. The white color was hard to see against the aluminum, and I ended up with an uneven first coat. A second coat improved matters, but then I found that the paint was sticking to the drop paper I was using. In a couple of spots I ended up with paper stuck to the part. Then to top it off I started to run out of paint before I could totally finish the second coat. I was intending to have a light coat, but I’m not sure if it’s too light. Will look at it again tomorrow in some better lighting, and figure out how to deal with the touching up where paper stuck to the paint.

Redimple

Earlier this week I decided to hold off on priming parts until I have a few more tools. I ordered a new spray gun, some towels, some spray bottles, and once that arrived tomorrow I should be ready to prime parts. I spent some time tidying up the garage tonight, and installed an air filter on my bench to ensure I have clean and dry air going to my tools. I also took the opportunity to redimple the other side of the vertical stabilizer skin. The dimples are slightly crisper now and I feel more comfortable with the end result. Next time I dimple, I’ll have a better idea of the pressure I need to be using.

Counter sinking rear spar

In was in and out of the garage today, but managed to get the rear spa doubler counter sunk, and the spar dimpled to match. I started with a practice piece to get my counter sink cage set correctly, and after a little experimenting had it dialed in to where I was happy. With a rivet in the hole, it sits just shy of the lip, by perhaps a couple hundredths of an inch. The reason for the slightly deeper hole is that the dimpled spar needs to sit inside the countersunk hole, which obviously takes up more space than the rivet itself. The challenge is figuring out exactly how deep to go. I’m going to start with what I have, and can always deepen the cut if needed, but I have a feeling it’s right where it needs to be.

As I dimpled the holes and compared to the skin dimpling I did last night, I’m concerned my skin dimples are not crisp enough. The skin is actually quite thick, thicker than the ribs and spar, and I may need more tension in my dimpled to really form the dimple well. I clecoed the top rib to the skin on one side to see how snug the fit was. It’s hard to see in the photo, but there is slight gap between the rib and the skin. There are larger gaps where I fluted the rib, but the worrying area is where the clecos are inserted. If I haven’t formed a totally clean dimple, there will be a problem when it’s time to rivet to the ribs, the skin will not sit flush with the ribs, and the skin will develop waves. I decided to adjust my DRDT-2 dimpler and to try redoing a couple of dimples and compare the results. With some more tension, the dimple was definitely crisper, and there was more scuffing of metal around the dimple. At one point I put too much tension in the dimpled, and there was a very slight depression formed where the female die depressed the skin. I adjusted back a little and ended up with what I thought was a good amount of pressure. I kept going, re-dimpling one entire side of the skin. It was very hard to tell the difference besides the scuffing marks. Using the reflection test (seeing how reflected light bends around the dimple), there was no appreciable difference. For both the original and the re-dimpled holes, there is no bending of light until inside the ring around the dimpled hole. I did break out the squeezer and redid the tightest 3 dimples on each side. Continuing to the other side of the skin and redoing all the dimples just doesn’t seem worth it. I think what I have is definitely sufficient, and redoing the dimples is just risking a mistake, and probably enlarging the hole as the dimple sets in a slightly different way the second time. The pics below are of the two sides of the skin, one side has been redinpled, the other hasn’t. But which is which? The second pic is of the redimpled holes. You can see slightly crisper edges

With the dimpling all done, it’s time to prime and then start riveting.

In other news, I am hoping to connect with my tech councilor next week before he heads to Oshkosh. And a letter arrived from Vans with my two missing washers. I added them to the appropriate bag and marked the inventory list, which is now complete.

Dimpling

In a couple of sessions today, I was able to debur the Vertical Stabilizer skin, then dimple the skin and all the #40 holes in the sides of the ribs and spars. I taped over the 6 holes on each side of the ribs and skin where the fairing will attach later in the build. The tape to prevent me accidentally dimpling the holes. The skin was a little challenging to manage, but I found I could dimple every hole using the DRDT-2, with a little bending for the holes in the tightest spots on the leading edge. When it came to the ribs and the spars , I needed to use the squeezer to get many of the tighter spots. Tomorrow I’ll tackle the counter sinking of the rear spar doubler, and the last few spar dimples that match. Then I’ll prime all this stuff and get to some riveting.

More deburring

I finished deburring the spars and doubler tonight, and just have the skin left to debur on the vertical stabilizer. It’s been very time consuming, but I’m striving for a good finish, and doing most of this with scotchbrite by hand. I’m also going beyond just deburring and actually scuffing the surface. This will be required when applying primer anyway, but it’s more that iMm using the scotchbrite to debur the holes, rather than other tools. I don’t like the idea of accidentally counter sinking while deburring, and this approach seems to be producing good results. Hopefully the skin will be a quick debur project that I can complete tomorrow, so I can move on to the next steps; dimpling and counter sinking. Once those steps are done, I’ll prime all parts (including the inside of the skin where parts will be touching), and then I can start riveting. I can see why the parts of the kit with already-final sized holes will go together so much faster. I also spent some time reviewing hints for home builders videos and reading through the digitized plans with links to Vans forum posts. Extremely helpful.