Saturday, February 29, 2020
Here's a tough one to clone - The Centuri Skylab. That strange plastic nose cone was re-used in a few designs. There are a few vacu-form wraps, nozzles and details where molds would have to be made.
In the Centuri kit, the thick card stock fins were covered in a metallic foil with a tight embossed square grid. They supplied a peel and stick covering.
The embossed sheet is shown on the left. You can see the tight square pattern that runs throughout.
On the right side is a scrap piece, turned over and taped to cardboard for some "77" adhesive spray. You can't really see the embossed squares on the backside.
The radiant barrier piece was set down over the leading edge and pressed onto the flat sides.
I was curious if the embossed squares would disappear when the thin foil was pressed down - they didn't! The lines did go away only over the leading edge. This foil could be used on a clone.
Now if somebody would produce the vacu-form wrap parts, I could make a Skylab! Even if you aren't building a Skylab, a embossed panel like this could look like a solar panel fin.
EDIT: I checked some Ebay listings and can't find this same square embossed radiant barrier sheets. The few I see now have small perforations throughout the sheet. Keep an eye out, it's out there somewhere -
Sorry - I won't be selling or mailing out this covering material.
After the supports were in the correct position, tweezers held them tight on the sides as the glue set up.
Here's my first CWF pass to fill the tab slot recesses. The picture shows the side after sanding. I'll have to go back for a second pass of filler and sanding.
I scanned the card stock pieces just in case I had problems. This is a print of the scan. Notice the 1" span reference lines to check the home print.
DON'T DO THIS - I tried a light crease down the printed line with a butter knife and straightedge. I found out this wasn't needed. See the next post for a better solution.
On the right - I cut the piece a bit large, just outside the printed lines. It will be trimmed after gluing later. Right now, just do dry fits using no glue.
The inset picture shows the soft fold over the higher center piece. The right and left sides of the card stock curve down a little to glue to the top and bottom edges of the side pieces.
Friday, February 28, 2020
Before adding the stringers, the assembly top and bottom were sanded smooth. Use a sanding block here with 220 grit sandpaper.
The small stringer notches are cut square by the laser. These have to be trimmed at an angle for the stringer gluing.
TIP: Use a single edge razor blade to do two cuts at the same time. This will keep the cut angles consistent.
Before cutting all the way down, lightly score the lines with a to check the width and angle of the cuts.
This reminds me of the Guillow's planes I made as a teen. There was lots of 1/16" thick stringers and fitting involved.
Here's the stringers glued in place on the front and rear of one engine.
Some inside glue dots were added to the stringer joints. Excess glue was picked up with a Q-tip.
Thursday, February 27, 2020
At the top is the middle piece, below are the right and left sides.
TIP: You might want to fill the balsa grain with CWF before gluing the engine together. It would be difficult to fill the leading and trailing edges (and visible interior) after it is glued up.
Test fit, test fit! test fit, before gluing.
The center struts fit well, I didn't remove the hold down tics left from the laser cutting for a tighter fit of the strut tabs.
The center engine piece shown here is upside down. You can see the sanded CWF filler on the flat face at the front and rear.
The two notches got small drops of glue for the interlocking horizontal struts.
The inset picture shows the struts 90 degrees to the center piece.
The horizontal support struts are glued onto the larger center piece.
After that dries the sides are glued on. Note the tabs are recessed.
I wish the tabs were a little longer so they would extend beyond the outside face of the side pieces. It would be better to sand a longer tab flat and end up with less filling to do.
Wednesday, February 26, 2020
Not a big deal, the glued up root edge could be sanded flat with a block.
But take a look at the wing slots on the right side. As I mentioned, this was a pre-production kit. The jet engine support slots on the right side wing need to be in line.
Before Estes let me know they were sending new wing parts, I cut a new slot and patched the hole that was out of line with a strip of balsa.
Tuesday, February 25, 2020
I've mentioned this before -
Laser cut parts are cut at an angle. The top of the sheet is the fine, narrow cut line, on the bottom of the sheet the line is wider and diffused. The thicker the balsa the wider the bottom line.
Lightly square and clean up the sides but don't change the shape of the parts.
If the edges aren't square you could end up gluing the parts on at a slight angle.
Here's another example of cleaned and squared edges.
On the right, I've sanded the edges but you can still see the hold down tics. Don't change the shape by sanding off any more than you have to.
Sand off some of the burnt edges. Glue will stick better to balsa, not burnt ash.
The nose cone molding seam was clean!
It took very little sanding to remove it and no filling.
Monday, February 24, 2020
On the NAR Facebook page, Frank Burke posted a picture of his latest R/C Boost Glider:
"YF-12 interceptor version of the A-12/SR-71 family. Hardly ever modeled. This was an interceptor version that wound up being used for testing the aim 47 missile and doing tests for NASA. The chines were shorter on this design because of the large rounded nose cone that held the radar system. The R/C Rocket glider uses 9mm depron, bt80 tubing and is designed for 32mm glider G-12 reloads. Currently 16 oz airframe weight. with electronics, paint, nose weight and motor it'll be about 26 and 1/2 ready to fly so it should be a pretty good performer."
I thought this profile looked familiar. I put together the (much smaller) Apogee SR-72 Darkbird a while back.
To see the build: CLICK HERE
At the time, I asked Tim at Apogee where he came up with the name. He said: "We wanted to show the next generation of the SR-71, we call ours the SR-72."
Looks like the Apogee kit was based on the same YF-12 Interceptor that Frank built. I never even knew it existed.