Colonial Viper MkII (Moebius Models) 1/32 Scale Build #1, Part 1 Conclusion – Making Things Fit Better
I surprised myself with the first Part 1. I didn’t realize that I’d done so much work. That meant (means) that I had (have) to do a continuation so that I don’t fall behind. Again.
What started the reconstruction of the upper nose was the canopy not fitting well. Now the canopy fits without having to reconstruct the canopy:
Shims were added to the sides of the cockpit on the fuselage so that the canopy fits well there also (this cockpit is supposed to be sealed, y’know):
With the nose modification roughed in, I sanded it from 220 grit up to 5000 grit:
The AM set has a PE box that has to be folded and assembled. It also needs room inside the belly pan. Two sections of excess plastic under the lateral engines had to be cut away:
I had pre-shaded the engines with flat black, it was now time to give them their finished color as well as the landing gear legs (same color):
I’ve read accounts of people who either don’t like pre-shading or see no purpose for it. Makes no sense to me. I get great (he says modestly) results from it. I certainly like how they all look when dry-fitted:
While I had the compressor fired up, I painted the guns with my custom mixed “gunmetal” paint (Tamiya X-18 Semi Gloss Black, 5 parts; XF-20 Medium Gray, 4 parts; thinned 1/3):
I turned my effort towards the exhaust nozzles. I think the AM parts, resin body and three PE disc inserts, are substantially better:
The kit’s nozzles need work. They have to be removed. Note in the below photo the section of the part where all the nozzles attach. Once the nozzles are removed, the center part is what remains:
Each of the AM nozzle assemblies has sections where one can see into the hollow fuselage. Easy fix. Cut out discs for the two nozzles that allow that “feature” and paint them black (the upper engine’s rear will get painted black for the same reason):
Each wing root has a gap that bothers me. Well, they had gaps but they were filled with scrap styrene. I’ll finish these off before painting:
I’ve had people ask me how I make some of the smaller details I use. I’m going to show you but there are a few steps to the process. If this is of no use to you, just scroll past.
Sometimes I need to make something cylindrical in nature. If dimensions and shape are critical, I have a small bench-top lathe (Harbor Freight, I don’t need anything more accurate and certainly don’t want to pay for more accurate). When the look matters more and it’s a small part I’ll use a variable-speed drill. In this case, all I need is something to hold the stock and spin it.
The sensors for the draedus are molded onto the wingtips in opaque plastic. Yes, I could just paint them. (I could also get into stamp collecting as a hobby, too.) Instead, I want to make clear covers for them. So I started with a section of clear sprue and set the drill at a lower speed to keep from melting the work:
My initial thought was to use an abrasive nail shaper:
Nope, it doesn’t take enough off. I tried a razor blade next:
Yes, it took more off per spin, but it was unwieldy (and my fingers, being right next to that sharp bit of steel is full of my SACRED B+), so I used a #11 blade:
That worked much better! What isn’t evident in the above photo is the angle I’m holding the blade at. I’m holding it at pretty much the same angle that I use to scrape plastic with. Do NOT let the blade bite the work!
Don’t forget to check the diameter frequently:
Once my Eyecrometer MkI was satisfied, I polished the work:
I used the #11 and a VERY narrow file to add surface details:
Once that was done, I kept the work spinning and used a razor saw to cut off what I wanted. And yes…this is a small part:
Its size isn’t a problem. The problem is that I have to make three more of them! At my age, I have an understanding of my work process. One of those understandings is that when I have to make multiple parts, I generally nail the first one spot on. The remainders? Well…if I’d followed my process and tried to make three more just like that one, I’d probably would have needed four or five attempts to get the next one. Repeat that process twice more and I’d have a pile of small parts and the task of selecting the best four from that pile. I just didn’t feel like doing it that way.
Instead, I used the silicone molding putty and made four molds from the one part already produced:
Why four molds? Because it was my intention to make the sensor covers from plue comprised of clear sprue. It takes time for the plue to set up that I didn’t care to wait around for. First, make the plue:
Not easily seen in the above photo are the bubbles that are forming. I use Tamiya Extra Thin to make plue. It’s a solvent that dissolves plastic. The process of hardening is one, essentially, of evaporation. The solvent evaporates and leaves behind shaped plastic. It also leaves behind bubbles. As the solvent out-gasses, it creates bubbles. The bubbles that make it to the surface go away. But as the solvent out-gasses, the plastic returns to its original solid condition and that traps all the bubbles that didn’t get to the surface in the plastic:
Opaque plastic doesn’t show that (them?). I tried several ways of getting plue into the molds in thin layers and without disturbing the plue (and thereby creating more bubbles). That worked, in a manner of speaking, it just didn’t work very well. The parts were VERY THIN. How do these get attached to the tips of the wings? Solvent-based glue. Solvent dissolves plastic. The parts are vert thin plastic and they (or the test piece) do what plastic does when solvent touches it. It dissolved:
Then I had the incredibly bright (there’s my modesty in play again) idea of using the UV-setting resin to fill the molds. It’s clear, doesn’t react to solvents, and though it can bubble in the mold, that’s more of an application problem. When bubbles were introduced into the mold, I used a needle to move the bubbles away from the part successfully…then forgot to take photos. ::facepalm::
I discovered that I’d neglected to add some PE to the nose landing gear. Fixed that. I also broke out the Humbrol paint (#27003) and painted the feet (because they’re not wheels) buffable steel. (The white plastic part is a wheel that sits in the feet and has yet to be painted, obviously.):
I painted that wheel and PE and assembled the nose strut:
After assembling the main landing gear, I added them to the belly pan. The foam wedge is holding the assembly aligned while the glue sets up:
These PE frets are almost entirely landing gear bays. Brass origami shall ensue shortly:
Some of the PE parts from the other PE fret are intended to dress up the engines a bit. The problem with PE is that it’s flat. I used a piece of a D guitar string and three different sized solder (0.020″ [.508mm] is shown but I also used 0.015″ [.381mm] and 0.010″ [.254mm]):
The port engine done:
And the starboard engine is done:
Yeah. I like that, and the pre-shading does exactly what I’d hoped it would do. When it comes time to paint this model, the engine areas will stay as they are now (with the typical paint touch ups).
As it gets closer to adding the belly pan, it was time to add the nose gear. It fit like crap. I’m not especially thrilled with how it’s sitting (after much diddling, fiddling, and offering Deities all sorts of things that They’re aware I’ll never do or stop doing, depending on how I’m wheedling them) but short of taking the nose bay out…again…this is how it’s going to stay:
There! All caught up. Next month’s preview? Brass origami.
This is a Public Service Announcement.
Be careful where you part your truck! There are miniature coyotes in the neighborhood and they’re obviously in a rush:
Colonial Viper MkII (Moebius Models) 1/32 Scale Build #1, Part 1 – Parts Layout and the Start
This is going to be interesting (hopefully not in the Chinese sense). I’ve never done fictional spacecraft before. My initial intent was to model this as realistically as possible, but that balloon was popped almost immediately. Nothing about this is realistic, or as a friend of mine said, “Science by magic.” Okay, then what am I actually building here? It’s a movie prop that existed in two forms; digital (CGI) and practical (something real). That’s made the build easier and more difficult at the same time. The easier aspect is the availability of primary sources. Just watch the show and when a bit of detail flashes past, take screen captures of pertinent scenes. The difficult part is internal. As designed, this thing could never move under its own power and it irks a part of me. The rest of this thing should be fun!
Science by magic.
This is what I have to start with. This is the first time I’ve seen the manufacturing date (I assume, anyway) printed on kit parts (inside of the wing):
That noted, here’s what’s in the box:
The first thing that caught my attention was the quality of the clear parts, in particular the canopy. Thin, clear, and mostly well done (more about that in more detail than you’d believe later). The second attention-getter was the resin figure. Overall, it’s nicely done. However. If you intend on using it, the joystick the right arm is holding (the unattached arm) is way too high. If you’re using the figure, you’ll have to deal with that (but since I’m not, I don’t have to deal with that).
As you can see, it’s not a kit with a high parts count. It’s simple. Oh, yeah?! Well I can fix that. I’ll fix that by seeing how many of these bits I can shoehorn into it.
Green Strawberry (available from Moebius) makes all of the AM bits I’ll be using. One set supplies the resin seat, PE parts for the panels, etc., and photo-reduced images for all screens and instruments. And a word about that… The AM set for the cockpit offers two sets of gauge faces. One set is for a standard build, the other set is for those of you who like to add lighting. The kit is designed to allow the forward instrument panels to be back-lit. The set of gauge faces with a black surround are for illumination, the white (which are the ones I’m using since I’m not building this with lighting) are for a typical build. All of them are excellent and fit well. The other PE set is for landing gear bays. There is a resin/PE ejection seat, also nicely done. Since I have a profound appreciation for the character of Kara “Starbuck” Thrace, and the kit offers decals of her specific ship, I’ll also be adding Starbuck. Green Strawberry (or whomever did the sculpting) did a great job with this resin figure; it even looks like her. And since I just can’t seem to resist throwing everything at a kit, I’m also replacing the kit’s exhaust nozzles with resin/PE aftermarket parts:
It’s true…there isn’t anything that I can’t complicate. It’s a talent.
At this point of the build, all of the AM parts had yet to arrive and I was still thinking that I’d be able to make the engines more realistic. My intent was to open a panel on top of the engines (after creating one, but to fit canon, it would be an inspection panel, not an inspection cavern as the kit has them) and perhaps extend a bit at each end. Had I looked just a bit further, I’d have noticed that any attempt to expand on the engines wouldn’t work. There isn’t enough room to create engine extensions and fit canon. But I didn’t look further and I went down this empty rabbit hole.
Rather than scratchbuild every addition, I’d thought that I could copy what detail was provided and then work it into an overall acceptable engine. To get molds, I used silicone molding putty:
While the putty was curing, I investigated which would make “plue” (plastic and glue) to fill the molds. What would work better, acetone or Tamiya Extra Thin cement? I used two empty glue bottles, placing cut plastic pieces in each bottle and then putting enough acetone/glue in to cover the pieces. The tilted bottle has acetone (tilted so that the acetone would cover all the plastic) and the other has cement:
After sitting overnight, the clear winner is the glue. The only affect the acetone had on the styrene was to make the surfaces slightly tacky…that was it:
By then the mold was ready to fill:
It’s been a while since I’ve used plue and the mold in the above photo shows it. I put on much heavier a coat than I needed to. Several thin coats works best. Another “interesting” trait is that the more the plue is manipulated in/on the mold, the more bubbles created, which this little lovely reminded me of:
Next attempt using thinner coats worked better:
Of course I had to have a go at fixing the first casting (on the left above) but that solution created more problems than it solved. In fact, once I had acceptable castings for both sides is when I realized that the whole engine idea was a waste of time. They be what they is (relatively).
Since this was my first wake-up call (most of my builds have at least one), I decided to tape the major components together to check fit:
That will require some work. It’s not horrible, but it ain’t Tamiya, either.
Since this thing doesn’t have a leg to stand on, I decided to start putting them together. Nose gear is on the right:
Seams are variable. Some good, some not good, some just freaking annoying. I’m moving away from putty as my default void filler towards scabbing in plastic instead. These landing struts/gear seams need it:
See what I mean:
While all the added plastic was setting up, I started putting together wing halves. This was an area that needed help. So I helped it:
“Why is your work bench so cluttered and messy? Doesn’t that get in the way of working?” No, dear, it is working. These are the tools needed to clean up parts that are essentially simple:
Simple. Right?
While removing the tape from where I’d dry-fit the major components together, an ohgoddammit moment arrived. The blue arrow shows you where a part came apart:
The way this is engineered, I decided that I’d use the model itself as a gluing jig (the break is on the left half of the engine area). The flat areas on either side of where the upper engine goes served well as an alignment guide:
Good illustration of fit, eh?
While I was there, I filled the slot for the supplied stand since I’m not going to use it:
At this point the AM parts arrived so I changed focus to doing the cockpit. For the resin seat to fit, the molded-in seat has to come out:
Once the kit’s seat was gone, I assembled the pedestal for the seat:
Then I checked the fit:
Nope. Sits too high. The fix was to remove the pedestal and glue the seat directly to the floor (you can see the fit of the fuselage behind the seat, which will require some inflexible persuasion on my part), which lowers the seat to the correct height:
To apply the PE I have to remove the molded-on details. That with the round black dot has to be removed, the one on the left that looks like a D laying on its face is where the throttle goes. The insert in the floor is to fill the gap left after removing the molded seat (and to give me something to glue the resin seat to):
Done:
The structure behind the seat needs to be filled. I used 0.020″ (.508mm) for that:
Where the back joins the tub is evident at the edges. I used a little putty to make the added back look as if it belonged.
With unwanted details removed, PE moved to the front of the line. Surprising no one who’s worked with PE, acrylic paints don’t adhere well. They’re fine once painted if they aren’t stressed. I was curious to see if lacquer would hold up any better. I masked off what I didn’t want to paint and then sprayed the fret with Tamiya’s TS-6 Matt Black from a rattlecan and let it sit overnight:
The next day I used my MkIII Thumbnail to see if lacquer is more resistant to wear. It is. It still wore a bit as I was working things but NOwhere near as much as acrylic wears.
In general, I’m not a fan of PE harness straps. The PE fret has them so I decided to have another go at them. I started by annealing them so that they behave less like the strip of brass that they are:
During annealing, I managed to scare myself. I use a butane torch to anneal. It’s hot. It’s hot enough to melt little brass strips! I came far too close to melting one of them, but since I’m not a grenadier…
Next I fed the straps through the hardware of sliders, tabs, and locks:
Annealing them made it magnitudes easier to feed the straps through the hardware! Now to see how they go on:
Annealing is definitely the way to go with PE harnesses.
I don’t know what this little panel is for, I just know it’s there so now was a good time (or even not a bad time) to see how the lacquer holds up to bending and gluing:
The lacquer holds up to being manipulated much better than acrylic does.
The main panel is basically formed, dry-fit, and checked for fit (good):
The engine intakes have blades for the intakes. Well, two out of three intakes. They look cool but are utterly unrealistic (and foundational theme for this build). The third intake is just a flat surface and of course it’s right up there in ones’ face(s), so I carved (another set of utterly unrealistic) fan blades into it. What the kit offers (one on both sides and the two of three intakes with fan blades):
I started with this:
Drew the leading edges of the blades and checked appearance:
Then I sharpened all my scalpels and knives and started carving:
I cleaned up the edges/surfaces after taking the above photo.
First paint. These are the parts that get shot with Tamiya XF-1 Flat Black because I like the effects I get from pre-shading:
There:
For the overall cockpit color I used Tamiya’s XF-53 Neutral Gray, no scale color correction, and just misted it on:
Set that to the side and started work on the main panel:
I continued to do the side panels of the cockpit:
Preparatory to finishing the cockpit tub, I had to add decal data-plates to the sides and this is the first major uh-oh of the build. The first decal did not want to release from the backing paper. At. All. I let it sit in the (warm) water until the sodding thing just floated off. How I managed to fish it out of the water without folding it is one of Life’s Mysteries ™. Since I was pretty sure that whatever adhesive used to be on the decal was also floating in the water, I used Micro Set to convince them that this was their new home. That’s when I encountered the second uh-oh…the decal broke while I was trying to move it into a less inaccurate location (see the blue arrow):
Not only did it break, it broke because the left side of that decal, once it hit the surface, would not move at all. Instead, it tore. This isn’t boding well for the other decals. I hope I’m just being an alarmist.
I didn’t have any trouble at all painting and installing the harness:
The first step to applying wear and staining was judicious use of the silver pencil. I added friction-wear (as opposed to impact-wear) marks as well as some pastels to make the office looked lived-in (and the sharper-eyed amongst you will note that I also affixed the throttle and joystick as well as the mystery loops behind the headrest, using 0.020″ (.508mm) solder) :
The side rails are just dry-fitted to get a sense of what stains show, where wear goes, and how much of it looks correct:
The belly of the fuselage is molded separately from the sides. Clever. It obviates most of the belly seam. To add the AM details, the main fuselage has to be cut away to allow the AM space (more on that later, too) to socket in place:
Since the cockpit was done, all detailed, painted, worn, and dirtied, I added it to the fuselage and glued the fuselage halves together:
Then I put the belly in place (almost) and noticed that the top of the gear bay impacts the front floor of the cockpit (which is also an AM part from the same manufacturer for the same kit…guess nobody checked to see if it would fit) (again, check the blue arrow):
And speaking of fit, force will be required here (again torpedoing the notion that force never solves anything) to get these two parts to meet:
And while I was checking the fit of things, I took that beautifully cast canopy, put it in place, and realized that it didn’t fit well, either:
While I’m here and looking at the lousy join of this seam, I clamped it most puissantly:
The sides don’t fit either. They’re supposed to seal the cockpit, which will require the surfaces of the canopy to touch the places of the fuselage it should touch:
And note how well the leading contact edge of the canopy meets the fuselage:
I decided to make the nose gear and belly pan fit first. That required me to cut free the PE part from all the glue I used to hold it there (because, since the nose landing gear attaches to the PE part, it had to be securely glued), which took the better part of an hour (didn’t want to damage the delicate PE, y’know). It also took a few tools to accomplish as well:
After cleaning the dead glue off of surfaces, it was time to refit it only this time accounting for the intrusion of the cockpit floor. The belly was taped in place and then the gear bay stuffed into the hole until it would go no further:
Since there was going to be cutting and filing of the exposed areas, I glued that PE part in securely and started work until the edges were flush with the fuselage:
Having put the sword o’ Damocles back into its sheath, I turned my attention to fixing the canopy’s fit. What do I fix? All references show that the upper fuselage in front of the canopy is flat. Do I rework the canopy to fit? Or… The canopy is clear and fairly delicate. Could I rework the clear part? Yep. (The Goose build taught me that.) Do I want to do significant surgery on a part I can’t replace? (Okay, sure. I could replace it. But what a freaking job that would be and the canopy would be at risk throughout the process.) No. So that means that I have to build up the nose to match it and do it in such a manner as to be unnoticed. Okay, that seems like a grand idea!
That grand idea started with me laying down strips of styrene from 0.040″ (1.016mm) to 0.020″ (.508mm) with liberal applications of glue:
I let it sit overnight before starting to shape it. I started with 50 grit and worked my way past 100 grit and down to 220 grit, at which point gaps started to open up. Stretched sprue to the rescue:
Making a curved surface with flat panels means that each panel will be thicker in the center than at the edges (arcs, y’know). As the surface is removed and shaped correctly, the thin edges of those flat panels start showing gaps. That’s okay. I knew it would most likely happen and I have a lot of sprue I can stretch:
While those were curing, I started fitting the canopy. I added small bits of scrap plastic, putties, and got the two edges to meet at the front:
In the above photo, at the lower edge where the canopy meets the fuselage, you can see a 0.020″ (.205mm) spacer that I’m using to start filling the gaps at the sides of the canopy. Once the gaps are established, it’s just the sometimes-tedious job of filling them with scrap (mostly 0.010″ .254mm) and a bit of 0.020″ (.205mm)):
This post surprised me. It wasn’t until I started working on this post that I realized how much work I’ve done on this; it certainly didn’t feel like it. Anyway, I’m going to stop here. Yes, there’s more. I think I’ve already stuffed enough into one post. I’ll finish this one up (edit checks) and start the next one tomorrow.
Grumman JRF Goose (Czech Model) 1/48 Scale Build #7 – Staggering Towards the Finish…and Getting There
This is the danger-point for me, being so close to the end that I have to be careful not to rush things. Couple that with the reality that I despise this kit, I have to double the caution.
I started with what I perceived would be the biggest hassle and that was getting the wing level, and I wasn’t entirely incorrect. As it sits in this photo, the bubble indicates that the wing isn’t level:
At the center of the model, that bubble isn’t far off. At the wingtips it is. I bent my brain around several corners trying to figure out the best solution. I’m of the opinion that it is not uncommon for a given problem to have more than one solution, except that solutions to problems usually come with new problems (and the solution is enacted if the new problem is less than the old problem). And speaking of problems, here’s a short (I hope) examination as to what the problem is, not what I’d rather it be.
The struts of the landing gear fits into the top of the landing gear bay. The landing gear bays were not molded onto the fuselage sides. As I found out well after I’d added the landing gear bays, the sides of the fuselage do not match dimensionally. Yeah. Who knew that would be a problem. It certainly wasn’t Czech Models. However, with one landing gear bay higher from the bottom than the other, and the landing gear goes there, should I be surprised that once the aircraft is assembled that it doesn’t sit level? I was when I first found the dimensions (and shapes) did not match from side to side, but after I thought about it (a lot), I knew that by the time I got to this point of the build, I’d have this new problem to solve. ::facepalm::
Since I saw this problem as a geometry problem, I looked into the geometry of the landing gear. Being more than a little frustrated at this point, I dry-fit the wheels onto the landing gear and pressed firmly down on top of the model until the bubble was centered. Just as the bubble centered, I heard a soft crack as something broke loose…but the bubble was still level. Took a bit of investigation but I found what broke loose. The blue arrow in the photo below points to where the upper control arm snapped away from the strut leaving this gap:
Hmm. So, if I fit a spacer between the strut and control arm, will that make the wing level? The answer was, “mostly”, which I discovered once I’d cut a spacer from 0.030″ (.762mm) and checked:
I trimmed the spacer without gluing it in and checked again. This time I estimated that I needed another 0.005″ (.127mm) more:
And there it sodding is:
I think it’s the housing for an ADF head, but it needed to be painted semi-gloss black. So it was. I REALLY hate self-inflicted wounds, which is how I view overspray. When I aimed the airbrush at the football, NONE of the other painted surfaces were visible:
Success! Zero overspray:
I used 0.025″ (.635mm) as brake lines, painted them knowing full well that during the final bending process would cause paint to flake off. It was a lot easier to get at the parts that bent the paint away because there weren’t buried in the landing gear bay. I’ll get to these when touching up the paint happens (the photo’s on its side because I was using gravity to hold the solder where I wanted it to while the superglue set up):
And speaking of paint touch ups, I painted the frames of the cockpit windows off so that I could also paint under them. A solution that created a problem; paints don’t match once assembled. Okay, I’ll be doing touch-ups (with a small brush in these areas…the other side, though not as bad, is the same), just add this to the list:
You’ll also note that the cabin window just behind the flight deck is still masked. This was a problem I let sit as-is. When I tried to pry the masking tape away, three of the four sides of this window broke free. It was hanging on by paint. My memory isn’t what it once was (is anything?), but I DO remember what I had to go through to fix the one that came out already. Carve, fix, fill. Lots of fun when the plastic was unpainted, a no-go zone now that it has been painted. I supplemented the paint holding the window on with liberal applications of superglue. I’m pretty sure it’s going to stay there, now. It’s in a place where it will never be touched.
This one’s pushing the 90-95% accuracy I try to attain. I don’t care. A blocked off window is better than a sodding hole. Moving on…
Speaking of self-inflicted wounds, I noticed a week or so ago that there was blue overspray on the nose. ::adds to touch up list::
I added the heat exchangers (the brown things over the engine nacelles). Later on I’ll spiff them up a little bit with some pastels:
I added one of the landing gear “doors” just before beddy-bye so that the glue would set up; there’s not much gluing surface:
And while I was letting something sit overnight, I got ballsy (considering how late in the evening this happened) and added one of the floats to sit overnight as well:
Obviously, with only two small contact patches, this will be easy to knock flat laterally. I added tape to stabilize it while I fed the ends of the braces into the float and wing for gluing (superglue). l cut the wires overlong so that I could be certain I’d be able to adjust them if I needed to (a handy bit of foresight):
With all the guy wires in place, it looks pretty good:
Getting the guy wires into the pre-drilled holes of both the float and wing took some fiddling. For the next float, I tried inserting one end of the guy wires into the float without cement to see if that would be easier:
It wasn’t. If you look closely where the wires meets the float you can see small bits of masking tape holding them in place:
This didn’t work as well as I’d hoped.I was surprised at how difficult it was to just remove the tape. I had to diddle the tape so much that the float came free (in its defense, it hadn’t sat overnight for the plastic to harden fully at the glued points). After I reattached the float to the wing, when I turned the whole thing up side down, all the wires fell out:
I got that fixed:
The radio aerials attach at both wing tips and the tip of the vertical stabilizer. I use this for aircraft aerials:
As I’ve been putting this together, obviously the more parts I add the less places I can hold it. For that reason (because these things get handled and transported) I wanted the aerials to be semi-removable; permanently attached at the wing tips, removable at the vertical stabilizer. What would make doing that simple would be to make the attachment point on the vertical stabilizer detachable. Or…I could mount the attachment point permanently and have it be J-shaped so that I can just lift the EZ-Line and let it drop. I like that idea, the major flaw is that even though the EZ-Line’s tension is adjustable, that J-hook has to be small. I didn’t have confidence in copper to hold up over the years. Instead I used the E-string from a guitar (thereby creating the moderately rare 5-string variant). Everything about its dimensions are printed on the pouch:
It’s certainly over-engineered for my purpose, which I think is great:
I’d attached little stubs of styrene rod where they belong and center-drilled them to socket the end of the EZ-Line into:
After gluing the other side in place, I tested the arrangement to see if it would function as desired. It function exactly as desired. Top photo below is with the aerials in place, the bottom photo is with the antennas dismounted (for these photos, I dry-fit all the parts yet to add and realized that none of those dry-fit parts need to be glued so I left them on):
I have one more thing to do (attach the brake lines to the wheels) and DONE!
Grumman JRF Goose (Czech Model) 1/48 Scale Build #6 – And This is When Tedium Really Sets In
I generally try to post new material here around the end of the month. Not having posted since August, that seems to have broken down. Seems to. It’s this build of this particular kit. I don’t want to work on it anymore. I recognize that this is an emotional response, not intellectual, so I have pressed on, albeit intermittently. But…here we are!
The fuselage over the flight deck (or cockpit, you choose) has a prominent feature. The curved shape is created on the actual aircraft by using flat panels. In some photos the panels appear to be butt-joined (the edge of each panel abutting the next), in some photos they seem to be scaled (where one side of the panel overlaps the next, sitting on top of it), and none of them are definitive. I made my guess (several guesses, really) and decided I’d go with the scaled (overlapped) presentation. I laid down strips of .005″ (.127mm) and then faired them in with 3M Acrylic Putty:
While the putty is drying, I fitted the heat exchangers on top of the engine nacelles. Originally it looked like a small, resin, cat standing on a hot griddle. Way too high off the nacelles. Fiddle, file, sand, cut at they now sit correctly:
EDIT
While I was doing this update, it was at this point in it that I sat here confused (easy place to get to due to how often I go there). I thought I’d taken more photos of the work over the flight deck. I certainly know that a lot of time was spent on it. About an hour ago the mystery (and confusion) dissipated when I found the photos I thought that I’d taken misfiled in a folder that, of course, has nothing to do with modeling (there are minor aspects of my life that have nothing to do with modeling) (honest). It’s at this place in this post that I surreptitiously add them in a manner that I think few will notice my oversight. ::giggles::
With the putty dry, I went back to the fuselage over the flight deck. ::sighs:: Where to begin… A lot of work ensued. Almost all the putty was sanded away to see if I could (I couldn’t) refine the shapes and lines of this area. As so often happens, once I’ve decided on a method to accomplish whatever oddball thing I’m trying to do, often I have to invent a way to do it (and frequently that is not a hurried process, regardless of how it may look). While doing the work of that invention on the model, it is quite common for me to figure out a different (and hypothetically better) way of accomplishing the task. It’s also not uncommon for that epiphany to come too late to use on what I got the idea from. This was one of those. While removing putty and trying to refine the shapes into something I want, I realized that what I should have done was not add the strips and putty at all. The panel lines should have been scribed and cut away to create the lapped effect. And then I noticed that the lines aren’t just on the clear part, they extend rearward to the pencil line on the main wing, which is how I came to the realization that adding the strips and putty was a total waste of time/effort (and I added the resin scoops to the left sides of the nacelles):
Putty was immediately added whenever I found a void that needed filling:
About this point I realized that I had too many different colors/shades reflecting light and I had lost the surface (visually…if I’m that bad off, I stay in bed). I used Tamiya XF-20 Medium Gray as it most closely matched the plastic’s color so that reflectance would be uniform:
I’ve seen a number of field-expedient grab handles added to aid refueling. The filler port is on top of the wing on the left side. Access was achieved by opening the portside entry and crawling up onto the wing. Then the fueler had to scoot towards the filler port while dragging the fuel hose. (I’m not sure that “ergonomics” was even a word 80 someodd years ago, doesn’t look like “convenience” figure prominently, either.) I picked a photo to replicate and used some 22awg wire and added one setup that appealed to my eye:
Ain’t nuthin quite like applying primer to show you what still needs work. Plenty:
It seems I got too frisky with cutting in the lap lines and took too much off (though, for a change, it was before I’d carved through it) so I used stretched sprue to fill what had been mistakenly removed.
As an aside, if you need preshaped sprue to stretch, shaping the sprue before stretching it will keep the shaped you’ve established (this was shaped triangularly to better stuff the gaps I created):
Jeweler’s files. The self-locking tweezers that are attached to stands. If you don’t have any, get two. They are so useful in getting pissy parts aligned, and keep them aligned, while glue sets. I use my pair on every build at some point and it’s time to use them again to keep the stretched sprue in place while the glue sets up:
I’ll generally wait 2-3 minutes after applying the glue before I press the sprue into what I’m filling with it:
Still more work to do straightening out the lines. I spent over a week working on that section and ended up needing a break from that particular task. Since the added sprue needs to sit overnight before it could be worked, I attended to THE most fragile parts off all the fragile parts.
The mass balancers on the elevators. They’re so small that I left them attached to the sprue runners while I cleaned them up. I knew that I was going to make them removable using 22awg wire as pins. I didn’t need magnification to see that the bases are too small. 22awg was the smallest wire I was willing to use (anything smaller would be too flexible), so instead of even trying to get the notch I’d have to cut for the wires centered on the bases, I excised a slot slightly less than halfway through the base to recess the wire into. No…not accurate. Yes…practical:
And to think that I won’t work on anything smaller than 1/48 scale because “it’s too small” is getting really funny.
With those ready to paint, it’s back in on my head. My eyecrometer seems to be in need of recalibration. Since eyeballing it wasn’t working, maybe tool use will. The tape is so that the next line is freaking straight:
Next up will be mounting the engines.
While doing initial (hopefully final) fitting of cowls and engines, I realized that the engines are intended to mount to the cowlings! (No mention of that made in the directions. I guess if Czech Models figured if the builder has managed to get this far, they’ve realized that for most of whatever this kit needs, the builder will have to figure it out for themselves.) Okay…I’ll glue them to the cowlings:
I’m glad I had the foresight to remember that however the cowling mounted, where the engines mount would be important. But, seeing as the engines are resin and mounting to plastic, superglue won’t allow me enough time to align them correctly. To get around that limitation, I superglued 0.010″(.254mm) clear styrene to the backs of the engines. This will allow me the to join styrene to styrene and fiddle them into alignment (I used clear plastic so that the added disks would be easier to center over the engines):
Now for the task I’ve been dreading this entire time. It’s time to attach the landing gear.
The kit offers three pieces for each landing gear; the main strut, the upper control arms, and the lower control arms. Three pieces, two hands, and minimal space to work in. I cut down on the parts count by aligning the lower control arms on each strut, then drilled through them and put a wire in there to act as a hinge. Had I not done that, I’ve NO idea how I’d have gotten these things on at all. Even with the parts reduction, the four-letter word I want to use to describe that process isn’t “easy”. Move this into position, attempt to move something else into position and the first piece moves out of position. I’ve seen this kit online where others have built it. They could get the landing gear on, so that means that I can get the fornicating landing gear on. I finally got the strut and lower control arm glued in:
After repeating this lovely task on one side, I did it again on the other side.
If I thought getting this strut/arm assembly in place was a delight (it wasn’t), then there’s the upper control arm to wiggle into position and trying to align it while making the aircraft sit level was a pleasure that defies description (or sense). I persevered (the process of which was akin to getting a colonoscopy without anesthesia):
Did I get the bird to sit level? Nope:
It’s not time to fix it yet. I’ll pay the toll on that bridge when I get to it.
My next task was to start throwing paint at this. Of course I started with the light colors and worked darker, but where I started was figuring out how to mask this using cotton balls for the landing gear, front and rear. For the cockpits, I took foam wedges (nail care section of the drugstore/apothecary) and cut them oversized so that they would hold themselves in position (usually):
That worked:
As this will have a three-color paint job, and the nacelles are definitely part of that paint job, I decided that adding the engines now would make all the color demarcations line up later. Before I added the engines, I traced the back of the cowl on paper, traced two circles (one for each engine), and after determining the center of the circles, cut from the center to the edge. This would give me paper cones that would fit in the cowling openings and mask the engines from the incipient painting (and if you look closely behind the engine that’s on the right in the photo, you can see the trimmed foam in the cockpit’s window behind it). With that done, I glued the engine/cowling assemblies in place (shortly after these photos were taken, I painted the undersides of the cowlings white as well):
Figuring that I was on a bagel (which is very similar to being on a roll, just a firmer seat), I got the paints ready. The XF-18 Medium Blue was the correct color, not the XF-8 Flat Blue you see below:
Yeah…wrong color. But…before I had to repaint the sides, I found that Thumbnut McFumbles, here, did not monitor the position of one of those thumbs and did this (hint…check the area that’s not blue…lightly sanded thumb mark on wet acrylic):
Though not precisely pleased, there was something else that fell short of pleasing. When I cut the access open to fix the pilot’s seat, I had to replace the part cut out once I’d fixed the seat. At this point of the build, I was reminded that if I’m not careful (giggle), when the cement finally out-gasses, there can be a visible shrinkage caused by A LOT of glue being used. I used A LOT of glue because there was A LOT of plastic used to fill the edges. This resulted in a clearly evident depression around the patch’s edge once the disco-blue was on. Since I was going to have to repaint the sides (once the correct color arrived), okay…so I’ll fill it in again, only this time I’ll use the UV-setting resin:
Just on a whim, I decided that the heat exchangers could use painting:
Pity…that paint job didn’t last very long as you’ll see later. Too bad. I liked it.
Seeing as I clearly can’t keep track of where my fingers go, I needed a method that would enable me to handle the model as it was being painted. Since I was starting with the bottom, next I would do the sides, and then finally the color on top of the aircraft. And since I want to finish this in a semi-gloss finish, I would also need a painting order for that as well. I let that rattle around inside my wig for now and set about getting that wrong blue covered.
When the paint arrived, XF-18 Medium Blue, I started the repainting with the floats. I’m sure you can figure out which was the before and which is the after:
Much better:
Next up, XF-17 Sea Blue for the upper surfaces:
The overspray of the wings and tail-planes white are how they were painted in WWII.
It was at this point I could take off my polarized sunglasses and resume work.
I like using pencils for some things. At the top of that list is Prismacolor’s PC949 Argent. It’s silver and in small-area applications, it looks enough like aluminum for me. As I’ve discovered, if the surface is slightly rough, the pencil not only goes down easier, amazing things can be done with subtle wear patterns. With the build now under paint, I sharpened my PC949 and went at it. Gently. The Navy doesn’t let its kit get shabby:
With the paint on, the next thing that goes on are decals, so I hit the spots where the minimal decals go with Tamiya’s X-22 Clear Gloss:
Yes, that looks like a lot of paint. However, this paint does self-level:
I had painted the white undersides (Tamiya XF-2 Flat White) a few days before the color and had shot it with clear gloss (Tamiya X-22 Clear Gloss) to prepare it for a wash which meant it was ready for the wash. I figured since the wash was going down over white, I could get away with a more nuanced wash. Pratt and Whitneys leaked oil. The skin panels were not oil tight. Oil leaked on the ground and once the bird was in the air, the oil that had leaked onto the skin streaked back in the airflow. That’s what I was after. I didn’t think an enamel wash would give me the subtlety I thought would work so I broke out the oils:
The last time I did a wash using oil paints (on the engines), I’d used Turpenoid as the base (roommate hates the smell of enamels and turpentine). It took a week to dry. For this wash, I tried using Gamsol as the thinner instead. It was dry the next day.
Yep…looks like engine oil:
Yep…it looks a lot like oil:
At this point, these are all the parts I have yet to add:
A couple of days later with full knowledge that the clear gloss had set sufficiently for decals, well then…let’s do the decals. And then there were these:
Well, well. Old decals. I decided to see if I could get them off the backing with few enough shards for me to piece them back together on the surfaces (because I’m that kind of nuts). Results were…well…predictable.
This one went on in “only” two-ish pieces and was acceptable:
The one for the upper wing, however, was a cockup:
I broke out Walther’s Solvaset in the hope (another four-letter word) all the shards would play nice with each other. They didn’t. I used more Solvaset to see if perhaps multiple applications would smooth things out. In some spots it worked. However, there was a cost. NO amount of further Solvaset got rid of the wrinkles:
The second photo above was the best Solvaset could manage. Not acceptable. I only know of one way to remove blown decals. Sand them off, reapply paint, and start over:
Yes, even through the new paint, the faint outline of the decal’s remnants shows up. Since the new decal would sit right there, I didn’t bother sanding it out.
Solvaset worked well (though not perfect, it’s close enough) on the left nose decal:
At this point I discovered that I’d salvaged the only two decals from that sheet that could be salvaged; all the rest were garbage. Oh great. This is a limited run kit so the odds of me finding suitable decals weren’t good. Okay, so it’s star ‘n’ bars…I probably have dozens of them on hand. When I went through the decal stash, I discovered that yes…I had lots of star ‘n’ bars. I just don’t have any even approximately properly sized. The big surprise was finding another sheet of the exact same decals for the exact same model. How I managed that, I’ve no idea. But with stars in my eyes, sweat on my forehead, my shaky hands cut out a decal from that sheet to test and it was FINE.
Whew…
Here’s the nose decal from the second sheet, and this time I wondered if Solvaset was too hot for these decals. So, who doesn’t have Micro Sol? I used that instead and though the old decals WERE OLD and shattered, perhaps part of my problem with the upper wing decal was the Solvaset. Micro Sol did the job (in-process in the lower photo):
While I’m fiddle-farting around with sodding decals, I neglected to notice that I’d knocked both heat exchangers off the bench and then stepped on one. I never heard the crunch. I did notice that neither exchanger was on the bench. Found one intact. Whew. Found one sitting in a small pile of resin dust (avec chunks):
::facepalm::
Okay, so I get to reattach the tail and make new arms. I didn’t have the exact diameter styrene rod, but I had styrene rod that was maybe 0.005″ (.127mm) less in diameter and that was close enough. Plastic has a memory so if I wanted a 90-degree bend, I’d have to over-bend them and let them sit overnight to attain their new memory:
At this point, a regular occurrence occurred. I dropped something and realized that the floor between my feet was CRUDDY. Okay, pick up the dropped tool and sweep the floor. Once the detritus was in the dust pan, there was one of the two arms sitting right there. Okay…let’s attach that NOW so I did using UV-setting resin:
That’s good news! I only have to make one arm using the UV-setting resin again:
It’s at this point that I got to see what happens when I get interrupted in the middle of something. I’ll forget the second half of something. I had one propeller all painted and ready. The other? Well, I got the hub painted and washed… Yeah. Let’s fix that before somebody notices:
I’m going to be facepalming so much that my forehead will be calloused and the tendons in my hand will be inflamed.
With the paint curing on the prop, I checked the repaired exchanger for fit. Just right:
With that all fixed, I got back to applying decals:
With all that applied, it sits overnight.
Increasingly, flat finishes on WWII aircraft are looking wrong to my eye. This time, I decided I’d do a semi-gloss (Tamiya X-35 Semi Gloss Clear) instead. This is where painting order becomes important. I have three basic areas to paint (not counting all the smaller details that haven’t been added yet, such as the floats in the photo below), top, bottom, and sides. I held the build by the sides and shot the top with semi-gloss. Once that set overnight, I did the bottom the same way. Doing it in this order meant that I’d have the wings to hold and manipulate the model during painting. The last thing to paint was the sides because now I can hold it by the wings:
The next drill is going to be figuring out how to get this to sit level. It’s about 1/32″ (a little more than 1.5mm) off from side to side. This will be fun to fix. But to get that measurement, I had to have this build standing on its feet. While I had the wheels on, I decided to stick the props on as well to get a notion as to how it will display:
Not badly, methinks. Hopefully next month sees me to the end of this.
Grumman JRF Goose (Czech Model) 1/48 Scale Build #4 – I Get to See Just How Poorly this All Fits Together
If you’ve been to this website before and checked out my building process, I’m confident you’ve noticed that I build subassemblies and once there aren’t any that I can build, I start putting them together (though there are those tasks that have to wait until later…think “small bits that want to snap off during normal handling”). In general, I’m usually surprised that once I get to the install-subassemblies stage, “suddenly” the build is done. It’s much like being an overnight success. There is rarely any sort of “suddenly” to the successful. There are usually years of perseverance, varied and continual emotional stress, and luck that support the “success” part. It’s not “suddenly” for the person who succeeds, and I think the same thing is true about my being surprised that it’s all coming together seemingly quickly. With my builds taking MONTHS to complete (or longer), “seemingly quickly” doesn’t seem very quick from where I’m sitting.
This month was much like that.
I ended last month’s post with cleaning up the empennage. So I started this month attaching the empennage. My. Goodness. It was very fiddly and easier to get incorrect than it was to get it correct:
It’s at this point that I state that the elevator bits were an utter ass-pain. They have a dihedral and the kit offers absolutely zero help in getting them aligned. After the above was glued on, I glued the other one on immediately, intending on using the mutability/movability property of freshly glued parts. What enabled me to get it done as well as I did (I hope) was using the support struts to achieve whatever degree of accuracy I managed to attain (they weren’t glued on at this point). This end of the strut goes here and the other end of the strut goes there. I hadn’t cleaned up the struts at this point, they were just used as jigs to at least get within sight of this thing called “accuracy”.
While the glued parts were sitting for the glue to set completely (more on that in a bit), I decided to pull another trigger and glue the wing on:
If you look at where the trailing edge of the wing crosses the top of the fuselage, you will see a gap. Since this gap is directly on top of the model and consequently easily seen, I decided that rather than putty the gap I would stuff it with scrap styrene (of various sizes):
Even though I had to squeeze the fuselage sides together in order for the wing to fit into place, there were still gaps at the wing-roots. More scrap styrene stuffed in to fill those gaps:
3M Acrylic Putty was laid down over all of these gaps and set aside to dry.
I was sort of dreading working on the landing gear. I think that whoever cut the dies for these parts did it from memory because they’re wrong. The main struts generally are also the main shock absorbers and as such have a certain look and, in the real kites, a definite purpose…and on this kit they’re just wrong. My initial thought (rare as those are) was to just scratchbuild the struts and move on. But once I had the part in my hand and my readers on, I realized that if I just could reduced the diameter of one section of the strut, that would suffice. No…it’s not 100% accurate. Yes…it does end up within the 90%-95% goal I’ve set for myself. In the next photo, the upper strut is a virgin (complete with parting lines). I used one strut as my trial, figuring that if I totally bitch it up, I can revert to my initial plan and “just” scratchbuild it. My goal, however, was to clean the part up well enough so that I could use the top of the struts (to the right in the lower photo) in my lathe if I managed to get the struts centered in the lathe chuck well enough then I’d be able to turn down the area I needed to. The blue arrow in the lower strut shows you where I managed that:
That machined area will be painted steel as it’s the section that compresses downward into the lower portion of the strut. I managed to get them both done without having to scratchbuild.
We’re at the “more in a bit” part. There was so little surface areas that could meet when I attached the empennage that, probably not surprisingly, during handling, one broke off:
Normally I used Tamiya Extra Thin to get these bits to stay attached. When I saw how poor the mating surfaces fit, I instead dropped back to an old standard, Tamiya Cement (white label, white cap), hoping that that would work in a poor-fit situation. The photo above is more proof that perfection continues to elude me. So that was reattached:
Back on the path, I spent A LOT of time blending the roots of the empennage to the fuselage, as well as bringing down the added styrene on top of the wing:
While I still had the wing on my mind, I decided which template I’ll use to cut the masks for the wing-mounted landing lights:
Which was then set aside because there’s a lot of work to do before the airbrush becomes the tool I need.
Having disappointed myself with how the paint job came out on the F7F-3 Tigercat, this time I decided that I would polish the surfaces to see if that resulted in something more satisfactory (as well as adding the rudder):
As I closed in on attaching the clear parts (normally I would call this “the canopy”, but most of it isn’t the “canopy” at all but structure of the fuselage over the cockpit. Hanging (okay, not hanging but attached) from the roof of the cockpit is a console with gauges, switches, and throttles. No way around it, I’ve got to build all that. And since I’m SO bad at matching interior curves (bad enough that comparing my…ahem…”skill” at scribing to matching interior curves makes my skill at scribing look decent), I decided that I would take advantage of the fact that the clear parts were molded in halves. I don’t have to match the interior curves, I can just trace them. Much inside the cockpit will never be seen. However, the throttle levers are quite visible, and if one turns the model just so, the face of the overhead can also be seen…so I have to build all that:
Having decided how wide I wanted the overhead, I used 0.020″ (.508mm) to fashion the sides and then 0.040″ (1.016mm) scrap as both ends:
While checking fit and keeping an eye on what needs to go on and into that overhead, I realized that maybe all those details would fit on an actual overhead console, there’s no way that the initial width of my construct would. I fixed that by adding 0.060″ (1.524mm) to both sides and added the face of the overhead with a piece of 1.010″ (.254mm) styrene:
After trimming everything to fit, I used a punch and die set to knock out the gauge locations on a bit of 0.005″ (.127mm) fascia:
Once I’d laid out the gauge locations, I glued the fascia on and added bits ‘n’ bobs to start filling in the details:
Yeah…a bit sloppy. What needed to be cleaned up was attended to.
While the glue was curing, I cleaned up landing gear arms, empennage struts, and the ADF (I think) antenna:
With the empennage struts all cured, this is the fit of them (note what the blue arrow is pointing at if you want a notion as to how ALL these parts so far have “fit”):
Of course that required filling, and though putty would be easier (all terms are relative), I didn’t know how it would hold up over time so instead of putty, I stuffed little bits of scrap styrene in to build up structure that later on I could trim to actually fit:
With the glue cured on the overhead console, I had to make the throttle levers. The body of them are made from 0.010″ (.254mm) aluminum for structural reasons. My first step was to lay out the angles on a scrap hunk of 0.040″ (1.016mm) styrene, drilled where the bends needed to be, and stuck 18awg wire into the holes:
Then a couple of tiny bits of stretched sprue for the grips:
Those were glued to the overhead as were a couple of other levers (UV-setting resin…great for making those infinitesimal knobs on the ends):
Time to paint it. The overall color is Tamiya X-18 Semi Gloss. Details were brought out by using red and silver paint on some of the switches and levers and Airscale “Instrument Dials, Generic WWII USAAF, item #AS48 USA”:
I don’t know if the dies were sloppily cut or if they’re old. Either way, at the windscreen area where the clear panel meets what will be opaque after painting, there is a radius. A soft corner. I didn’t want that. I know how to fix that with opaque plastic, but doing it that way will totally screw up the areas that need to be clear. I already had 1200 and 2000 grit sandpaper, but I didn’t think that would be enough to return the windscreens to unscratched clear. I went online and picked up 3000, 5000, and 8000 grit to fix this. The panel on the left has been sharpened but not sanded, the panel on the right is as-cast:
After doing left and right sides and then removing scratches with this progression: 320 grit, 400 grit, 600 grit, 1200 grit, 2000 grit, 3000 grit, 5000 grit, I polished with Novus #2 plastic polish. I was pleased with how clear and blemish-free that left the plastic:
Part of why this clear part fits SO poorly is because of the “wings” on either side. These are actually sliding panels that allow the side windows to slide open rearward. In order to fit this to the fuselage, those have to come off. I intend on making replacements for them (the prototype for which is at the bottom of the photo and covered in masking tape to minimize scratching):
With the overhead console done and the sliding windows removed, it was time to join the two clear parts. When I started that, I didn’t glue the entire join. I figured that since everything else fits so wonderfully (I sure hope you know that’s sarcasm), I wanted to leave enough room where the clear part attaches to the canopy just in case the fit was off (I know that it looks like the join has been completely glues…which it was…and then I realized that I was probably going to need to adjust the fit so I spread the two apart down to the post between the two windscreens before the glue could set up):
I am certainly glad that I made that allowance! The strip of plastic inserted at the rear of the clear piece(s) is 0.040″ (1.016mm) wide. Subsequent work showed me that I could have done with 0.020″ (.508mm) more:
I filled in the gap and sanded it down on both sides before I permanently attached the overhead console (the foam wedge is there to prop the clear part in the most supportive angle while the glue cure):
While I was yanking and cranking on the fit of the clear part, I heard an odd “click”. Investigation showed that I had pushed one of the passenger’s windows inside the fuselage:
This window can only be installed from the inside. ::face palm::
After much deliberation (read that as kicking, screaming, and threatening Dire Consequences), I decided that cutting out the section of the window between the panel lines would let me get at it to fix it:
I thought that I’d be able to get the window that popped out (or in) but I rattled that thing like it was a rattle can of rare paint that I hadn’t touched in a couple of years. Nope…not coming out. Okay, easy fix. Get another piece of clear…so I did:
Self-inflicted injuries are still injuries…only without anyone else to blame for it. Moving on.
With that delightful sidetrack, I got the clear part glued on. Note where the blue arrow is pointing. That’s the closest I could get it, mostly. Yes…I could have diddled it into a better fit, but the V shape of the windscreens has to match the V shape where it joins the fuselage. Fixing the poor fit on the sides was the easiest path:
I used UV-setting resin to build up the places I needed to so that the edges matched up:
As you’ve probably noticed, I also added a couple on panels of 0.005″ (.127mm) scrap to build up areas to meet the fuselage and wing. Sanding would have removed too much and altered the correct curve at the top. I also added more UV-setting resin to the top join to fill gaps and give me a firm surface to scribe a panel line into:
I also used UV-setting resin to attach the V at the front of the windscreens to the fuselage:
The additional UV-setting resin fixed the problem nicely:
Whew…and it gives me the look I wanted:
Now that painting this is driving the build, I started going over the surface to see what I’d missed. Little things like scribing the underside of the wing root. Dymo label tape is my go-to when I have to scribe a long, straight, scribe (and even then I can screw it up):
The kit provided no pitot tube (thankfully!) so I made one using 18awg wire and built up the fin that this one had using drops of UV-setting resin, curing it, adding more drops, curing that, until I had enough mass to shape correctly:
The pitot tube is removable so that I don’t have to make another one later on.
The Goose had a splash shield fitted around the nose and down the sides to the landing gear. This part was far too thick so I thinned it out, and it fit about as well as nothing else has fitted, resulting in me having to snap a section to allow curves to match and sides to extend backward:
While that glue was curing, I started going over the entire surface again, noting new scratches and the sort for near future attention(s), and then I dropped the whole sodding thing. Few things are so bad that things cannot get worse. This time, I dodged major reconstruction. This is the only damage that happened; the splash shield got dinged:
Fine, I’ll fix that too:
I started building the sliding windows for the cockpit. I was doing okay until, once again, I dropped one…and then stepped on it because a simple fix cannot be relied upon repeating itself. Thankfully, these are really simple parts and fixing them won’t present insurmountable obstacles:
But that’s for next month.
F7F-3 (AMT/Ertl) After-action Report
Total time building 281.75 hours.
Begin date May 11, 2024; end date February 24, 2025.
Vendors:
AMT/Ertl
F7F-3 Kit #8843 1/48 scale
Eduard
Photo Etch Set #48178
Quickboost
F7F Tigercat Engines #QB 48 142
FineMolds Nano Aviation 48
WWII US Aircraft Seatbelt Set #NC4
Scale Model Accessories
F7F-3/3N Tigercat Wheels #CAT4_R48018
Scale Aircraft Conversions
Metal landing gear #48008
EZ Line
Fine black
My Opinion
This kit was produced in 1995 and I had assumed that it was a rebox of something like Italeri but it’s not. According to Scalemates, this was a new-tool kit produced by AMT/Ertl. When I first opened the box I had high hopes for this until construction started. The build became more and more annoying as I progressed; so much so that I doubt I’d spend the money on another AMT/Ertl kit unless it’s in the category of this kit, which is “I really want to build one of these but it’s the only one in 1/48 scale”…which is what this one is. I’ve always liked this rare bird and when I saw this kit was available, I jumped at it. There were many opportunities for this to be an outstanding kit, even by 1995 standards, the company just took too many shortcuts for my liking. It’s a 3 of 5 star kit and good for someone who’s just getting into modeling and doesn’t want to invest a lot of money into it and won’t be showing it at contests. To build OOB will require a newcomer to stretch to produce a decent build, which is what newcomers need (in my less than humble opinion).
What I ended up with is not contest-worthy.
Too many parts broke off after construction. Granted…I have not been at my best this year and some of that could be my own inability to connect the dots of late. But engineering and fit needed attention and sometimes a lot of it. And each time something breaks off, it’s got to be reattached. Each time it’s glued back on, there’s the old glue and the new glue and it builds up when something breaks off a half-dozen times. Yes…I could have removed the old glue. I didn’t because experience has shown me that that often requires a repaint which, given the nature of rattlecans and the locations of where things had to be reattached, I wasn’t interested in doing. This is a three-foot model. It looks really good from 36″ away but loses its allure the closer the viewer gets. Speaking of paint…
I learned a lot from painting this one. Yeah, orange peel is a thing. Yeah, I figured out how to mitigate that effect by sanding and polishing (the other fix is to strip all the paint off and start over). My major mistake was thinking that Tamiya’s X-22 Clear would self-level, which it does do. It seems the line between orange peel and self-leveling is invisibly (at least to me) small. I also learned that if one is doing a dark and glossy finish, one canNOT over prepare the surface. Prepare the surface as if you’re going to do a natural metal finish because I was very surprised to discover that a line left behind from sanding with 600 grit will show up when the gloss arrives on the dark paint. Lesson learned.
F7F-3 (AMT/Italeri) 1/48 Scale Build #9 – Whereby I Learn Things That I thought I Already Knew, Then Chasing Myself, Then Fixing Far Too Many Things…a Lot…and Assembly Wraps up and DONE
The theme for this month’s post could also be “hubris”. Over the years, I’ve collected a lot of tricks and procedures, and I rely on them. Turns out what I thought was a Fortress of Knowledge ™ turned out to be a sandcastle built at water’s edge at low tide. This month the tide came in and the sandcastle crumbled (along with a part or two) (okay…I’m being dramatic with the whole “crumble” thing but still…this month was a massive ass pain).
The opening salvo for hammering my hubris flat came when I left the brass tubing that I used to replace the kit’s offering for the 20mm cannons in the blackening solution overnight and went to bed so that I could get an early start on laying there for a couple (or three) (or more) of hours before getting some sleep. As I planted myself into the chair the following morning, my eyes (at least one of them) saw this:
The tube at the top hasn’t been immersed yet in the Brass Black. The…remnant…at the bottom is what happens to brass after it’s been immersed in Brass Black overnight. Okay…now I know.
I worked on attaching the wings. Fit is vague, allowing the dihedral to be flat (wingtips at equal height from the ground) to almost U-shaped. I wasn’t taken aback by this because dry-fitting had shown that this would be a problem as the gaps at the wing-roots would be as well. I did the best that I could with getting the first one, my reference as it turned out, glued on with the correct(ish) angle to the fuselage (not that easily seen because I was clever enough to have something behind it that would obscure vision):
At this point I realized that there was a task I wanted to do that would be much easier to accomplish before the wings were attached. Shell ejection ports for both the .50 caliber machine guns and the 20mm cannons. The kit didn’t mold them in so I had to excavate a bit. Step one was to mark where they should go:
Then I started digging (using a sewing needle converted to a chisel point because everything else I had was much too large):
During the process of excavating the ejection ports, I managed to snap off the radio antenna mast that had been molded as part of one of the fuselage halves. I was waiting for that to happen (because some things I can see coming…sometimes) so I added a pin to the mast and drilled out the hole where I thought it should go (I found out otherwise later) and set it aside for later addition:
Then I glued the port (left, if I’m not trying to impress) wing and its space/filler added 0.010″ (.254mm) styrene as filler to position the wing to (what I hope is) the correct angle:
Then I added the other wing and used more styrene as a gap filling spacer:
I diddled with the dihedral until my eyeballs dried out. At some point, one must accept that this is the best that they can do. Plastic can only be worked so many times before things break and/or wear out (including, or perhaps especially, my nerves). So the trigger was pulled and things were glued on. Then both 0.010″ (.254mm) strip styrene and 3M Acrylic Putty added to get things to meet and join as they’re supposed to (or, more accurately, as I want them to…and hopefully “supposed to” and “as I want them to” are the same thing):
That followed up with filing, sanding, and cursing until the wings looked the way they were supposed to look all along (perhaps):
I had to reapply more putty, as one frequently must, to get the spots that were missed. I masked off the recessed lines to cut down on the amount of recovery those recessions would need had I not masked them off:
A word about masking… In the uppermost of the above photos, to the lower right of the white putty is a strip of white tape. I used electrical tape to do that because it will stretch. I used its stretching property to curve the tape to match the curve of where the top of the wing meets the fuselage. Handy trick to know as the electrical tape can be cut into narrower strips if you need it that way.
At this point I decided to recheck the fit of the vacu-formed canopy and I decided that it sat too far forward because the radio mast was too far forward. Well…how fortuitous that the bastid already snapped off! I figured out where I wanted the mast to mount and drilled its mounting hole for later attention and attachment (the hole to the left in the photo below is the new mounting location):
The empennage didn’t locate any more accurately that the wings did, but it was sneaky about it. The wings just slid into the slots, the empennage fit very snugly, leading to the MISTAKEN impression that that was where they belonged. And then one compared the plane of the wings and the plane of the empennage and it wasn’t even close. I spent a fair amount of time getting this part of the build to match the wings. The right side went on and align with a bit of fiddling. The left side did not want to go in, then it didn’t want to be at the correct angle. I used masking tape to hold the left side at the angle I wanted:
I loaded the airbrush (Badger 200 single-action) with Tamiya XF-1 Flat Black and hit the outside of the front canopy (which, due to its transparency, will present as the inside of the front canopy as black. I also did the intakes for the oil coolers and intercoolers (which, as events later showed, was a waste of time and paint):
Having acquired the correct color blue, I shot the engine cowlings. These were painted when they were off so that I could make a valiant attempt at applying kit-supplied decals while it was easy to get at them. They were painted Tamiya’s AS-8 Navy Blue which is a lacquer (more on that later). Not having worked with this type of paint before, I let it sit for a couple of days before overshooting it with Tamiya X-22 Clear and had no problems:
Time to apply the decals and see how bad they actually are:
Bad.
Note the carrier film of that decal. Does it look like tissue paper to you? It really looked like tissue paper to me! Having read a few build reviews, that came as no surprise. And because the lower rungs of ladders are there for a reason, I started with Microscale’s Microset and Microsol. Zero effect. I stopped asking and instead went to the top of my ladder and used Walthers Solvaset. (Solvaset is HOT and has been said to dissolve modern decals and I can believe that! Don’t start out with Solvaset, start instead with Microsol because it’s the easiest mistake to rectify should you need to.) It took several applications of Solvaset to eventually conform the decal to the surface.
Did I mention that Solvaset is hot? Sure hope so. I’d rolled the cowling so that the decal was on top which would allow the Solvaset to pool and do its work. It was when I realized that the paper towel was stuck to the cowling that I discovered that Solvaset will and does dissolve the compound that Tamiya used on their paints. If that part is sitting on a paper towel, when the solvent evaporates, the towel stays…and it stays stuck to the surface.
The fix was to sand away the paper and marred paint. I started with 600 grit and worked through 1200 grit to 2000 grit and then used Novus Plastic Polish #2 to finish:
I was very relieved when that worked out fine and shot the Navy Blue and clear gloss again:
Having dodged that self-inflicted wound, I overshot both cowlings with X-22 clear and set them aside for later.
This was a big fighter and sat well off the ground. To get into it, there was a retractable boarding ladder in the lower right fuselage behind the wing. Ever been around an airfield where the aircraft are worked on? Let’s see…an aluminum tube ladder extending downward. I wonder if anyone’s ever backed a truck or tug into one and damage the snot out of the ladder and its mounts? Probably. So instead of mounting the ladder extended, I decided to model it in its stowed position. I clipped the ladder away from the part that attaches to the fuselage and then filed and sanded it down and scribed the panel lines:
The drop tank needed a little bit of detail. I used the punch/die set to knock out a disc that I could use as the filler cap. A piece of 0.010″ (.254mm) was used for it. Once it was mounted, a small amount of 3M Acrylic Putty filled in the edges of the disc that didn’t match the curve of the drop tank:
And while it was in my notice, I used a piece of 22 gauge wire and fashioned a painting handle for it and then set it aside:
When the tank is hung from its pylon, anti-sway braces are used to keep if from flapping around (always a good idea with an aluminum cigar filled with highly flammable stuff). And though the kit provided the braces, I thought they were out-of-scale. I used more 22 gauge wire to make more scale-appropriate braces:
As you can see, the ends of the wires are square cut, but the ends of the braces are rounded. I used a file and pliers to round off the ends of the wires. Once done, I have flat-jawed pliers (not textured for grip) (or her pleasure) that I held the wire with while I filed the ends round. The next step was to take the same flat-jawed pliers and grabbed just the ends of the wire and SQUEEZED to create the flat ends, which I then drilled out for the adjusting bolts:
After drilling, I used Grandt Line bolts as the adjusters:
Those were set aside until later.
Having painted and applied decals to the engine cowlings, it was time to mount the engines. The engines are AM resin, so fitting them into the cowlings and keeping them centered was going to be the traditional superglue race. I decided not to run that race this time because I RARELY win it. Instead, I used superglue to attach a square of 0.015″ (.381mm) to the resin engines. This way I could do what I did…gob of styrene cement and then take my time getting them centered. (In fact, I was so thrilled with my cleverness that I made a mistake here. I’ll show you that mistake shortly.):
I laid out the landing gear bay doors to paint them:
Then painted them using Tamiya XF-16 Flat Aluminum and then a black oil paint wash (now that it’s too late to fix it, I really should have used my darkened aluminum paint instead). Double-sided tape was used to keep the airbrush from blowing the parts into oblivion:
My roommate is very bothered by the smell of rattle-can paint and turpentine (no…I don’t have a spray booth). The AS-8 Navy Blue, being lacquer, has a pervasive odor so that means I won’t spray it indoors. I bring the model and the rattle-can into the garage and spray quickly before the temperatures of the paint and plastic approach ambient temperature (because this month has be single-digit cold here). In looking at this photo, can you tell where I was holding when I put down the first color coat?:
After sitting a couple of hours, I held it by the other wing and painted the other side:
AND I have confirmation that this will not be a tail-sitter…I still have the 27g engines/cowlings to add. Once the paint had dried to touch, I flipped it back over and painted the wing where I’d held it during the first pass with the ‘can.
Once the paint had dried (the next day, in other words), I gave it a look-over and saw that the seams still needed some attention in a couple of places:
And I also noticed that I hadn’t been quite as effective as removing scratches from the surface(s) as I thought I’d been, so those needed attention as well:
I don’t know why, but I also decided to check the lights. When I paint with acrylics, I’ve discovered that the acrylic paint is so easy to remove that I don’t bother masking at all. I do my painting, take a fresh toothpick and carve a chisel tip to it, and simply remove the paint with it that’s where I don’t want it. Here’s where I discovered that not only does lacquer smell, it’s not possible to do that toothpick trick with, so all the landing and formation lights were sanded and polished and then masked off using tape:
When taping really small things, I’ve learned that cutting masking tape into really thin strips helps a lot. For the wingtip lights, I masked the borders of the clear covers with tape and then filled in the rest of it with PVA:
I started to mount the engine/cowling assemblies, only to find that they didn’t fit. Okay…they fit when I dry-fitted them, what’s changed. A two word question. “What’s changed.” It took me several hours over a couple of days to find out what the problem was. I was utterly unsurprised when I found the source of the problem.
Me.
I looked and diddled and removed the plastic that I thought was in the way:
Nope…didn’t fix it. And then I figured out what the problem (with its foundation in me) was…
The R2800 series of engines are double rows of nine cylinders. The way Grumman did the exhausts, each cylinder has their own exhaust and they’re clustered in four groups. All but the bottom exhausts have four ends and the bottom exhausts have six. Y’know, if you mount the engines upside down, THERE WILL BE FIT PROBLEMS. Somehow, I mounted the sodding engines upside fucking down. There was no way that I’d be able to dismantle the engine/cowling assemblies without destroying all of it (glue’s cheap, y’know). Okay. So the problem is that I’m trying to stuff six things (exhaust pipe ends) into a space intended for four things and anyone whose age comprises two digits should know that. Normally I know that. If I knew how I made such a basic error, I’d not have made the error. (And I debated if I’d even bring you…plural, I hope…into the sphere of my oversight. But my deal with myself was to make this site as real as I can, and that, lads and ladies, means showing you my errors as well as my accomplishments. ::facepalm::)
With the mistake “fixed,” the cowlings fit the wings.
At this point, I’m getting to all the things that inhabit my “I’ll do that later” roster. One of them is the antenna. I’m going to use EZ-Line, 0.02″ (.127mm) for the aerial. I’d drilled out a socket for it at the tip of the vertical stabilizer, so I had to figure out how to mount the other end to the mast. Almost immediately (because it’s become clear to me that the only things I can do immediately is break something or attach it upside down) I realized that the tip of the mast is too thin to drill out. Instead, I used a very sharp scalpel to cut a V-shaped groove near the tip of the mast so that I could lay the line in, apply the UV-setting resin, and see if that worked. It did:
The other thing I did (which I didn’t take photos of) was shoot the whole bird with Tamiya X-22 clear. Well, that’s not all I did. I also managed to cover most of the thing in orange peel. Orange peel is that pebbled surface (much like an American football) that one gets when one totally cocks up a paint job. In my defense (should such a thing actually exist), I was trying to put enough clear down that it would self level. Looks like the line between self level and orange peel is vanishingly small. Some places that worked, and other places it did not. How does one fix orange peel? Well, one can strip the paint down to the bare surface and do it again correctly, but that’s the last resort. If one is lazy (and I am), and one has enough paint already thrown down (oh boy did I), it can “simply” be sanded flat. Of course, since all solutions create new problems, I had to be careful not to sand through the clear AND the color (which I did in a few places). Sand paint away, add more paint, sand to the correct depth, rinse the sandpaper and repeat (which I also did in a few places). The color coat, though, couldn’t be shot with an airbrush as it was in a rattle-can. I decanted a bit of it into an empty Tamiya paint jar (“just in case” he sarcastically muttered at the time) for touch ups. Since there isn’t any fine control with a rattle-can, I made CERTAIN to mask off areas around the vertical stabilizer when I had to redo the lacquer:
Recovery of the surfaces that I didn’t repaint started with a pass of 1200 grit sandpaper. If I wanted to spend a month sanding, that would have worked. I didn’t. Instead I used 600 grit where the orange peel was really bad. Then I used the 1200, 2000, and plastic polish. That worked.
But eventually I ended up here…all the parts ready to assemble:
From here, anything and everything I added was subject to breaking off…which all of them did several times, so it was a week and a half of three steps forward, two steps backward. My favorite.
I attached the landing gear doors…the first time. There were several other “attachments” made:
Then I started applying the kit’s decals. By now I was familiar working with these decals. I applied the Solvaset, and then used a cotton swab soaked in Solvaset to flatten a bubble. Big. Mistake:
If I’d had another set of decals for this, the one I bitched up would have been sanded off, paint reapplied, and the new decal applied. But I didn’t have any new ones so this one had to be fixed. I masked off most of it and lightly sanded with 1200 and 2000 to bring the texture down and then painted the mistake:
Not exactly show worthy, y’know? Not the clearest shot of it because I was just really annoyed at what I did but this shot shows that from a distance, it doesn’t jump out in the eye. An improvement, if still a botched job:
I added the other decals, of which there weren’t many. I also managed to botch the stars ‘n’ bars on the upper wing on the other side as well as the fuselage markings on the left side. I got one star on without mishap as well as the small production identification markings on either side of the vertical stabilizer. Yay.
Adding small details and closing in on being done, I added the 20mm cannons:
Having painted the oil cooler and intercoolers black (again, as the rattle-can covered what I’d already done), I added the canopy in the open position and used small dabs of UV-setting resin to hold it there, glued the antenna mast into place, and then trimmed the EZ-Line and glued it into the vertical stabilizer, and like that, it’s done:
F7F-3 (AMT/Italeri) 1/48 Scale Build #7 – Finishing the Cockpit, Joining Fuselage Halves, and Finally Dealing With Scribing “Fun”
I’m doing something a little different with this update. Typically, I post updates on or about the last weekend of the month. I’m updating early because I saw that I had taken over 50 photos this month so far. Typically, it takes me 6-8 hours to do an update; editing photos and coming up with this snappy commentary (so called because sometimes my commentary can bring me to the point where I’m ready to snap)…and that’s with 30 or so photos to edit. So rather than spend all weekend doing an update if I kept to my typical schedule, because January is only half over and I have more work to do, I decided (obviously) to break January’s update into this part and the one coming on the last weekend of the month.
I was still populating the cockpit with scratchbuilt bits. The Tigercat had a parking brake so I added one. That started with making the mount for the T-handle of the brake:
A very handy tool for those of you who scratchbuild is a “lazy Susan,” a platform that will rotate. Working small parts often requires the modeler to have four (or more) hands. I use jeweler’s tweezers to help with that. Alignment of the bit being added or constructed is critical. To get the alignment you want (which is, hopefully, the alignment you need) will require you to look at the join from multiple angles. If the parts and jeweler’s tweezers just sit on your working surface, it can be challenging (or next to impossible) to get the views you need without disturbing what you’re working on. Putting the jeweler’s tweezers and work on a rotating surface allows you to accomplish that. You can rotate them to the view you need to make the construction work correctly:
Last month while dealing with the seemingly never-ending throttle quadrant, dry-fitting showed me that I’d placed the imagineered pedestal too far forward. That got fixed:
I’d placed a small alignment mark on the floor of the cockpit and then promptly forgot that that mark was for the front of the pedestal, not the rear as I had mistakenly thought. Oops. (Again.)
A prominent feature that the kit didn’t provide is the flap actuator lever. Construction-wise, it’s similar to a throttle quadrant but only needed four parts. Wrestling and cursing during the construction of the throttle quadrant made this part easy to build by comparison. I used 0.010″ (.254mm) copper shim stock and a 22 gauge wire for the lever that I flattened with a hammer (the bit coming off to the upper right is just a spacer):
Then I used the jeweler’s tweezers, the lazy-Susan, and a bit of stretched sprue to make the handle (you can see the T-handle, also made of sprue, glued into position as well):
When I did my most recent balance check, though the thing would sit on its nosewheel, I wanted it planted on its nose with more authority. Having checked where I could put more weight, I added more .36 caliber balls (because what says “authority” like balls do?):
The nosewheel bay has no bulkheads with this kit. I hate matching interior curves. Since I am spending less time on details that won’t be seen or require the observer to pick up the model to see them, I’m not adding those bulkheads. I’m cheaping out by painting everything that could be seen through the front landing bay opening flat black (and the engine cooling flap parts, since they needed more):
Later on during dry-fitting, I realized I needed to extend the flat black further reward, which was attended to.
I held off adding the cockpit to its location because another annoying habit I have is that as soon as I paint something, I am reminded of what I’ve yet to build before I should paint. Here I am, blithely assuming that I’ve gotten all the cockpit parts painted and a little bit of wear added:
Then I remembered the harness…
I’ve been eager to try the molded styrene AM harnesses. I was pretty sure that bending and folding them to fit would cause them to snap. I used HOT water and took my time heating and bending (and even then almost snapped the shoulder harness’ acute bend over the top of the seat’s back):
The straps were painted a mix of Tamiya’s XF-49 Khaki (3 parts) and XF-64 Red Brown (1 part), the metal bits painted with X-11 Chrome Silver, and the leather pad backing the lap strap buckle was done with XF-64 Red Brown:
Then it was time to add those tiny control levers to the throttle quadrant. I tried a bunch of things, flattened wire and strips of heavy aluminum foil, none of which worked with a rodent’s rectum. I finally ended up using 0.010″ (.254mm) solder that I flattened out. That worked surprisingly well. Remember those tiny glass balls? Only one was used and none of them for the throttle quadrant control levers. For the latter, I used UV-setting resin, and that worked even better withOUT all the sodding hassle working with tiny balls (no comment, he comments)…and forgot to take pictures. You’ll see later when the instrument panels shows up in a photo because I did the same for the landing gear lever (lower left of the instrument panel with a yellow ball) and gun charging handles (four of them, two on each side at the bottom of the instrument panel with white balls).
I was pleased with how the parking brake T-handle came out. Then realized what I’d really forgotten to add before painting. The trim controls. All of these bits fit into the cockpit of the actual Tigercat. They don’t all fit into a 1/48 scale model of the Tigercat. And thinking like a pilot, I figured trim controls were of more utility than a parking brake handle (because, chocks are a thing), which meant I had to remove the brake handle. The brake handle that’s already been painted on the cockpit side that’s already been painted. (::facepalm::).
I modified the PE part slightly by removing the flat parts that are supposed to represent cylindrical parts by cutting them off and adding 22 awg wires in their place. The pitch trim wheel isn’t at all flat and the PE’s replacement is. I used the UV-setting resin to build up the flat areas that I want rounded and glued them in place, after removing the parking brake first(sorry about the blurred photo):
Being lazy, I didn’t want to repaint the entire cockpit side, so I made a handheld mask to paint just the areas I needed to (the mask is behind and above the cockpit side, the pointed end of which aligned over the rods):
And then a case of brain-fade struck. The throttle quadrant. Again. Some more. As EVER. One of the slots needed just a little bit of adjustment. Just when I had it where I wanted it, the fornicating front half of it snapped off:
I’m starting to get a depression in my forehead in the shape of the heel of my hand from all the facepalming I’m doing. (I’m already on blood pressure medication so my options for physically manifesting “DOH!” are limited to what I assume I can survive.)
Well, it’s not as if I don’t have practice PUTTING THIS INTERCOURSING THING BACK TOGETHER. Preparing the parts took longer than fixing them. The superglue that had been holding this together didn’t vanish because the parts separated. It’s still there. It also interferes with getting the part reattached. CAREfully removing the old superglue (fresh razor blade, sharpened scalpel) took longer than reattaching the detached part back on. But I won (for now, anyway):
Those two photos show the UV-setting resin’s balls. (Go wherever you like with that one.) Those were attached and got painted the required colors, and dry-fitting looks like the cockpit is ready to install):
But first, he says smugly because he remembered what he forgot to add to the instrument panel…rudder pedals, I added the rudder pedals. So far, those were the most annoying parts to add because they were as fragile as butterfly wings:
They were added and painted and I went back to putting things together:
One more bit to add, the wiring harness below the switch/control boxes:
That process wasn’t without its ohgawdammit moments. The fuselage area around the cockpit wouldn’t quite meet. I traced it down to the instrument panel by checking references. The sides of the panel are angled inward. I carefully bent the wings inward, then equally carefully touched up the paint (again) and reattached the fascia of the panel to the film behind it (again). The small bends on either side of the panel allowed the gap to vanish and glue was applied.
Then the two halves were joined:
While that was glued and clamped, I started working on the wings and empennage. There are a few lights that needed to be redone. The leading edge of the port wing has a landing light in it as well as underneath the wing, and both wing tips have formation lights. The area of the wingtip lights are molded solid so those were cut out to allow for clear material to be inserted:
Speaking of lights, there’s a row of three lights under the rear fuselage. The were molded as raised “details” and I knew that they’d be sanded off as the less-than-perfect fit between fuselage halves will need a bit of sanding. I had intended on drilling them out and adding clear sprue inserts instead anyway.
The problem is that I still suck at scribing. Scribing round details would require me to increase my results by a magnitude (at least) to be considered marginal. None of the templates I had offered me the diameter I wanted so I used a punch and die set to punch a correctly sized template from 0.005″ (.127mm) copper shim stock. It worked well enough, particularly since these are just drilling guids:
I’m trying to move away from using putty as my default filler, preferring instead to add scrap styrene whenever feasible. Because of adjacent panel lines around and under the nose of the fuselage, sanding to make the surfaces meet would have required a bit of putty. Instead, I added a strip of 0.010″ (.254mm) plastic under the nose for most of the fill with a little bit of putty to smooth the transition into invisibility:
There were other places that needed putty as well and that was applied:
I did mention that I SUCK at panel lines, yeah?:
Once this update is done and posted, I’m going to do a separate tutorial on how to fix errors like the one shown above. If you also SUCK at panel lines, you may find the upcoming tutorial of use.
So I added stretched sprue to fix that one…and all the other ones that I bitched up:
And since I LOVE scribing panel lines, I got to do these twice! How lucky am I… What happened was that I didn’t let these additions cure for two days, only one. When I started hitting these areas with a scriber, adjacent plastic, because it was soaked with Tamiya Extra Thin cement, was also softened. One overnight wait was insufficient for all the cement to utterly evaporate and for the styrene to completely harden. So this was all done again and then sat for two days before I tried working them again. I think that I’ve gotten them as well as I can manage:
Next problem to address is the poor fit between the engine nacelles and the wings. I was undecided as to whether to use putty or add styrene. I tossed a coin and putty won out. I wanted to keep the putty off of surfaces I didn’t want covered in putty. Rather than mask off those areas with masking tape, I ended up using electrical tape instead. Electrical tape will stretch and either conform to curves or outline curves. Try doing this with a paper-based tape:
I let these things sit overnight because I wanted the putty as hard as it can be. Then there was a lot of sanding, filing, scraping…more putty to fill areas that I’d missed (or the putty didn’t adhere well enough) followed by scraping, filing, and sanding. Eventually I arrived at the result that I wanted:
Once I hit these areas with gray paint (probably Tamiya’s XF-20 Medium Gray), I’ll be able to see if the curves where nacelles meet wings are evenly shaped.
While I was working the wings and empennage, I also fixed misaligned, wrong, or missing panel lines (just because I LOVE do this) (spits). This example is looking down at the top of the wing where the flaps are. The line on the left aligns with the line underneath, unlike the line on the right (and no…I wasn’t satisfied with the line I’d scribed, so I filled it with stretched sprue and redid it):
I persevered and ended up with these (the empennage had the same problems and were fixed the same way):
With the repaired panel lines sanded smooth, scribing happened next. Unable to speak for anyone else (and marginally able to speak for myself), trying to scribe long and straight panel lines is impossible without a guide. Being able to scribe straight lines around a curved and tapered surface is so beyond my skill-set that there aren’t words big enough to describe the mess I can make nor how quickly I can make that mess. Since I have to scribe straight lines and scribe straight lines around a curved and tapered surface, guides aren’t optional. Because things are tapered, I used electrical tape again (for long straight lines, I like Dymo Label Tape…adhesive and thick):
A light touch and many, many, light passes with the scriber is necessary because the thing that makes electrical tape good for jobs like this has an inherent uh-oh factor. The tape is flexible. Push against it too hard with the side of the scriber and the line goes wherever it ass-biting wants to go, regardless of what I want. Light passes. Lots of them:
And no…I wasn’t entirely satisfied with how those lines turned out…so I did it again. I got lucky and the next attempt(s) worked.
I. Suck. At. Scribing.
When I have to scribe, I find that I have to handle the model a lot. Rotating (all three axis), pressure, fumbling, all expose the model to risk. I already broke the handle off the flap actuating lever and had to redo it…then I managed to snap off the gun sight, too:
I got lucky. It only took me a little over an hour of crawling around on my belly with a pair of tweezers and a flashlight (or torch, if you prefer) to find it. I’m glad that I don’t have to make another one!
I’ve yet to see a kit that does a good job with landing lights located at the leading edge of a wing. They might be out there, I’ve just never encountered one (1/32 scale, maybe?). This kit isn’t the worst, but it’s certainly neither acceptable nor good. Replacing that requires clear plastic and I just happen to have some. It came with the kit. All I had to do was to shape it and detail it (in reverse order), so I used a vise to hold the stock in place while I filed a flat area that would be deepest in the socket of the wing:
I drilled out what will be taken as the domed section of an incandescent light into the back of the clear plastic. Once done, I used the smallest drill bit I have to make a depression for the “bulb”:
Painting is the opposite of typical. Each layer of paint/color is behind something else. Following that logic trail to its source, the first thing painted is the “bulb”. A touch of black paint. Then the reflector is painted on and for that I used a Molotow Chrome pen. Once it had set up, I gently scraped away whatever chrome was outside the depression and then painted the back of it black.
Then it was a matter of fitting, filing, sanding, and polishing. The “wings” in the photo below are 0.005″ (.127mm) styrene to fill gaps on either side of the insert:
Then it all gets finished (with tape applied to preserve the curvature of the leading edge of the wing):
Not my best effort but certainly good enough (I should have eschewed the drilled “bulb” and used just a needle instead…that’s for the next one I have to do).
Last update I’d mentioned that the sliding part of the canopy was flawed. Part of it didn’t fill the mold cavity:
Not exactly the end of the world (or build) as I’d not intended on using the kit part in the build. If the canopy is pose open, this part sits far too high to be remotely accurate. My only use for this part is as the buck to vacuform another one over. Since even I know it would be a mistake to try that without fixing the depression, I fixed it. I used the UV-setting resin to build up the missing mass:
That will do.
As an aside, I find that the UV-setting resin is harder than styrene when it’s cured. It also appears to be hard enough to file/sand/polish to clarity. Must remember this the next time I have to repair a canopy that I must use but have just bitched up.
While I was rustling about, I treated the underwing landing light to Molotow Chrome. I used a punch to pop a hole in masking tape, applied it, and didn’t have to worry about slopping the chrome out of the recess:
I also used 0.032″ (just under .890mm) copper tubing to replace the kit’s 20mm “cannons”:
I can just see how many times one of those will get knocked off, so I’ll mount them later. I also managed to snap the antenna mast off as well. I’ll add a pin to the bottom of the mast and drill a socket for it to mount to later.
I’m just happy that I do NOT have to work on that sodding throttle quadrant anymore!
F7F-3 (AMT/Italeri) 1/48 Scale Build #4 –Engines Get Painted, the Landing Gear Bays and Landing Gear are Pre-shaded, and the Landing Gear is Installed
I started this month by asking (and getting an answer) to the question that has been obvious to me. Will this thing sit on its landing gear or will I be another modeler who needs to use something under the tail to keep it off the table. By this point, I’ve stuffed lead and tungsten into any space they’ll fit, so I taped all the major components together to see if I’m even close. I placed the taped-together parts on my fuselage stand with the horizontal supports in touch with the model in line with where the landing gear struts mount:
Yes! It will indeed sit on all three of its tires, though the balance as the nose tire resting ever so gently on the surface. And this is done with zero weight in the nose (not much space but lead will obey the hammer and can be coerced into the shape I need), so since I will be adding more weight to the nose and the forward section of the drop tank (because it extends forward of where the main tires touch the surface). I don’t want an errant breeze having this thing squat like a dog having a slash.
Hammer time:
With the Big Question answered, hammer time segued into airbrush time. The engines were pre-shaded with Tamiya XF-1 Flat Black. The crankcase and its bits were brush-painted Tamiya XF-53 Neutral Grey, the ignition tube surrounding the crankcase was painted a mixture of Tamiya XF-6 Copper (two parts) and XF-1 Flat Black (one part), and the wires were done with a mix of Tamiya XF-57 Buff (three parts), and XF-10 Flat Brown (one part). The front of the rocker arm covers were lightly dry-brushed with Tamiya XF-16 Flat Aluminum. The cooling fins were lightly touched with a silver pencil. Then I took a round toothpick with a chisel tip cut onto it to scrape the flat black off the pushrod shrouds:
The kit’s pins to mount the propellers didn’t come close to fitting the engines, so I drilled the engines out to accept sections of 0.062″ (1.57mm) instead. (Pain in the thing I’m sitting on that isn’t a chair getting them perpendicular to the crankcases!):
Not a lot showing but that’s as it’s supposed to be.
Then it was time to fart around…forever…with the landing gear. My initial notion of using the metal parts was set aside because the alloy is so malleable that working them was akin to trying to work the surface of cooked spaghetti (okay…maybe not that flexible, but after far too many times having to straighten something out I considered going to get tomato sauce and grated cheese) (couldn’t find the cheese and by the time I had, I’d sobered up, so…). I still had the plastic parts from the kit (which I’d assembled to act as a form so that I knew how far to bend the spag…er…metal parts), so I decided to use them instead and hope that this thing didn’t squat over time. I finished off almost all the parts when I found this:
Most of you probably knows what a “short shot” is (and no…it doesn’t mean that). For those of you who don’t (or think it does mean that), it’s when the liquid plastic pumped into the molds doesn’t fill the void completely. That’s what happened (or didn’t happen) to the lower part in the above photo.
Fine. I’ll use the damned metal parts, then. (And yes…I pouted.) (Probably more because I did sober up but some of the lower lip extension was because I had to change my mind back.):
I can be pretty funny sometimes. When I took the above photo, I thought I had everything finally aligned.
I used the kit’s oleo extension arms on the main gear, but used the arms from the PE set for the nose landing gear (that’s the brass-colored part):
And just as an aside (and because I don’t have a lot to show here for this month, so it’s filler), a few years ago I heard about these, bought a set (which comprises four separate sets of what’s pictured below), and plan to use them on this build (which, with my typical aplomb, I totally forgot that I had until I was looking for something else):
They’re nicely molded with good detail. I’m probably going to have so much fun bending and shaping what needs to be bent and shaped. We’ll see if the effort is worth the result.
There are outlets for the oil coolers and the covers for the outlets are variable. The PE set offered replacements for what’s molded onto the wing tops but I decided to see if I could thin out what’s there sufficiently:
Yeah. That’s sufficient.
While doing the skull sweat regarding when the landing gear is permanently attached, I realized that trying to get the stupidly flexible metal landing gear inside the bays, things were going to be bent and badly so. Though I prefer to add things as delicate as these are as close to the end of the build as I can, that’s not going to work this time. Initially I thought it was because they’re so sodding bendable. Then when I tried to feed them into the bays from underneath, which is how they’d get attached later on, I discovered that they didn’t fit through the opening. ::sighs:: Okay, I’ll add them now:
Firmly glued in, out came the flat black again to pre-shade everything:
Next month these will all be painted aluminum. Who knows…I might even do other things as well.
Scale Modeling Mania 