Foamboard Spar/Former Experiment

We disagree! You've done fantastic things for the community and scratch builders everywhere.
Great video and great information :) -Austin

Great to see you back expanding our knowledge of DTFB aircraft design and construction. Thank you!!!

I'm glad you're back. I really enjoy your videos.

I am so impressed with what you have done for the foam board plane construction. I admire your spirit of giving and your support of FliteTest. In my mind, you are the reason I built my first plane and will ever be thankful to you.

I really appreciate the more engineering based perspective of this channel.

Ed--Thanks so much for a well thought-out test series! Not only the test methods, but your narration is always precise and shows your intelligence and education IMO.
My personal (and ongoing) experience with DT foamboard is that the bonding of layers of the board with hot glue creates unnatural increases in strength; it's as though the hot glue becomes a structural member, with the foamboard acting as a shear web and forcing the hot glue to maintain its column orientation and strength.
Thanks again and keep up the great work--I know I'm reflecting appreciation of the whole RC flying community here!

Enjoyed the video Ed, thanks for comparing the two former designs.

Thanks for all your great videos. Keep it up !

great testing Ed man, engineers for life lol. Blooper rolls my man, everyone likes seeing people goof up, add one here and there. Flitetest taught me a lot about RC building, but you think like I do, efficiency is key, and I feel compelled to support your channel. keep up the good work!

glad to see you're back. basement engineering rocks. keep it coming.

I was about to post a comment asking if flite test had seen the vid. Then I wisely kept reading to avoid appearing stupid and sure enough there it was. It was a combination of EA and FT that actually got me into model aviation. Keep it up you guys :)

Just getting into it with my grandson. I have built and flown balsa wood planes decades ago all glow with old AM electronics. I have been following Fllight Test for years but I found you and am going to build you r plan first. It looks great to me and should be quite easy to control. Thanks your boss rock.

Brilliant analysis. Thanks. Every wing I have folded did so near the fuselage where most of the load is. I have now used a modified FT spar with a 1/32in card stock laminated to the top surface of the spar for 1/3 of the wingspan. It adds very little weight and strengthens the compression zone. I usually don't have a problem at the tension side but add packing tape adjacent to the spar on the bottom inner face, again only for about 1/3 span. Adds strength and keeps weight down. I'm going to try your type spar as well but I might cut out the inner laminates halfway out to reduce weight but keep the full buildup at the high load areas. Thanks again. I enjoy watching and learning from your videos.

I've been experimenting with building these wings using carbon arrow spars and 3D printed ribs and I've had a lot of great success. The nice thing about including ribs is they result in a very nice accurate airfoil every time. I've also created a host of 3D printed parts for the fuselage including motor mounts, wing mounts, bulkheads, etc.

Thanks so much for the video! I used your design to build a 60" wing for a Timber plane that I built. I didn't use any wood spar or support bar and it worked well, my wing was strong. It even held up well in the wind. I just posted a video of my building that plane, if you want to see your experiment in action!

I like your design better I’ll be using your design with Carbon spar. Thank you, very informative information

Good to see you again with a super informative video!
I prefer the EA design for the spar, as it is easier to build and add some carbon to it.

you channel is very educative... thanks a lot.... you are the best

Built my foaMWARi crashproof RC airplane thanks to your inspiring and educational videos

Very nice, thanks for explain and presentations. Appreciate it 👍

Thanks for doing the tests and this video...

Great testing! It was systematically performed and well tested for various factors... Well Done!
Conclusion: Horizontal-stacks of foam provide for more foam/paper mass to take more stress/load than the I-beam, given the mass of I-beam is significantly low.
Future testing: If weight of spars don't account for much in overall wing then stacks of I-beams (vertical stacks) of similar dimensions (l x h x w) to those of horizontal stacks should be constructed and tested. Hypothetically, this method would provide even more strength and can take more load as this construction would counter for more compression stress on top and stretching on the bottom. It would also provide for more direct comparison as to which method is better since the mass is now constant!

Ed, love the video's. Keep them coming. There are a few FT designs that use a stacked EA spar. The FT Simple Soarer comes to mind. That is by far the best choice of spar for a constant chord, constant thickness, zero sweep wings. Building a spar on edge is used to facilitate ease of construction for taper and sweep. The real benefit in the EA wing build is the efficiency. Build a motor glider that is a cross between a Nube Tube and a Simple Soarer. Then fly it with a 60" wing built EA style then a 60" 3 break FT Style wing. Keep the chord the same for both wings. You will see how slippery the EA wing is compared to the 3 break wing. I would like to see you develop an EA style tapered wing.

Just discovered your channel. Loving your work, loving your attitude. Liked, subscribed and commented. Keep it up.

Great video - thanks for taking the time to investigate the pros and cons of both approaches. Interestingly the FT Mini Mighty Arrow uses a tapered C-shaped box spar that accommodates the servo. I'd be interested to understand how this fairs compared to horizontal or vertical foam stacking.

Thank you very much for this video!

Ed, you're incredible. Built lots of your planes. I look forward to your engineering response to the micro/nano (

Great work ,thanks!

Super stuff. A spin on your great discussion is to add tension resistance with a carbon L spar. Take a 8-12 mm square tube, slice the tube such that you have two L shaped carbon spars and use one of the L shaped spars with the Flite Test spar. Works great and better crash resistance. Also, use high expansion spray insulation foam inside the wing, forward of the spare. Again, improved crash resistance. Because, when I crash its high impact....:o)

That is GREAT stuff Ed.
Way kool man

It seems like the common weakness of foam board is in compression. perhaps an extra thick layer of hot glue could be applied between the top of spar and the inside surface of the wing to add compression strength.
Also, I've had good results with applying a strip of EPT to the bottom of the wing, with the EPT under tension (bow win up, afix EPT at ends of win, release, smooth EPT down). The simulated crash failure mode of your EA spar stack (breaking the bottom wing skin) would seem to suggest the value of this addition.
Thanks for your Testing, your are a true friend of RC Flite!

Wish you make new video, i think a only people miss u. Ur wing is far better than ft, cheers

really nice video. thanks for sharing

Mr. EA. You win. Very nice.

Very interesting, I've been playing with using pink foam from Home Depot as my spars instead of the Dollar Tree Foam. The pink foam appears to be stronger. I do sand the pink foam edge to help the Dollar Tree foam fold over. Basically instead of having 3 pieces of foam I have one. I can drill the end to place a carbon spar into the pink foam, thus giving me even more strength. Just my two cents. Great video Ed!!!

Subscribed and bookmarked thank you!

Outstanding!

ED! Come back!
Just show off builds and do flying videos, enough people will share to large Facebook groups to give questions/ideas for other new videos.
Your my recommendation for every pilot/builder looking for a place to start. 👍

as of 2019 the last two FlightTest kits I built ( Explorer, Simple Soarer ) use horizontal spar wing

Great video Ed. Thanks for doing the research and sharing. I was curious about your statement that both airfoil shapes were probably equal aerodynamically. So, I put both into Xflr5 (which uses xfoil and is designed for low-Reynolds number analysis). Turns out the EA airfoil is quite a bit better. At Re of 100,000 (roughly 25mph for a 5"-chord wing), the EA airfoil has a peak lift/drag ratio of 42 while the FT airfoil's peak is 25. That's a pretty significant difference and it's almost all due to drag. Even if you figure the wing drag is only 1/4 of the total aircraft drag (rough guess), that's still about a 10-20% overall drag reduction. All else being equal, that translates to a couple extra minutes of flying time on a 10-minute flight (plus, it looks better while doing it).

Hi - I'm a 'Flite Test' spar builder, but I early-on started adding a 2.0 mm - 2.5 mm 'steel reinforcing wire' embedded in the centre of the spar and across the middle third of the wing. I started doing this because many of the wings I build into my planes have dihedral - which in basic engineering terms, is like telling the wing exactly where to fail! :) The wire adds strength but allows some flex, complementing the foam. Also to my way of thinking; if the hold-down elastics or mechanical fixings of the wing to the fuselage are firm enough, this engineering problem is better considered as a half wing acting as a cantilever projecting from a fixed point (the edge of the fuselage or elastic.) Considered this way, the forces acting at the fuselage are an accumulation of distributed bending moments, which all concentrate at the wing root. For me it is about considering at what point the wing 'needs' the extra strength. Anyway - which ever way you approach the problem, the area that fails is the centre of the wing, so that's the bit that needs to be stronger. Maybe there's room for a hybrid wing that uses an EA centre and Flite Test outers? Also I wonder if the 'other option', of laminating a spar vertically from sufficient elements to equal the width of the EA wing spar, would have out-performed the EA spar? I've a sneaky feeling it would have, but concede it would be a nuisance to build it up and get the top and bottom edge flat. Great work though, as always. Alibopo.

I like that you tested this different forms of wing spars and I have bad experience with the flitetest spar made out of 6mm depron (had to put carbon in an FTCruiser as the wings were flopping around). But the efficiency of stress vs weight should be way better with the flitetest design. And you applied the extreme packing tape on the FT + versions on the wrong sides of the spar.
The thought of an I-Beam is that the Compression and Tension only gets taken by the outer foils which in our case is the wing surface. Packing tape in itself can only take tension forces. Because of that the extreme packing tape should applied horizontally on the outer surfaces of the spar or if possible even on the wing surfaces as they are further from the mid of the spar and therefore can take more tension. If you fly scale and never do negative g manovers it would be enough to put the packing tape on the lower side of the wing. As it will only add weight if you use it on top and not take any compression.
If one needs more strengh then the flitetest spar method allows it would probably best to put another spar in another region of the wing, trying to use more surface area of the wing to put tension and compression in. Or make hybrid of both designs using only flitetest spar in middle but adding a strip of foam on each surface as extra layer to take more compression forces.
Nonetheless like you said your method is the easier one to build and looks way better and in reference of simple build designs which can take higher forces, yours will win.
Also I may be wrong and the compressibility of the foam may already begin to matter, as I learned this stuff with with metals and not foam and you have way more experience with that. At this point they type of foam and it's orientation of use could actually already matter as the same foam can take way different forces depending of direction of use (depron is really floppy in one direction and way more stiff in the other)
I hope I gave some good ideas, keep going with this channel. I really like it.

Great video as always. I think the FT "faceted" wing design has an extra feature that was missed. When making the wing, I always glue the facets in one glue operation and then the leading edge and spar in a second operation. I do that because its way more complicated to glue so many joints at once without screwing something up. It always surprised me how strong just the faceted top wing section was without the spar. I don't think a second video is required, but i'm curious what the strength difference is between the curved EA top wing plate and the faceted/glued FT top wing plate. I don't use much glue in the faceted joint but i'm sure it helps with the overall strength.
Keep up the good work!

Everyone gets caught up in what type of spar to add to a plane, but they always seem to forget or sometimes ignore the tape spar. The concept of the tape spar is to apply one to two strips of tape along the top and bottom of the wing over the spar. As flex is induced into the wing, the surface tension of the tape helps prevent the foam underneath it from flexing as much as it normally would. On an EPO or EPP foam wing this can substantially stiffen a wing from flexing under heavy loads or high G turns.
With flat foam planes that are coated in packing tape as a sealant or for color, the effect is multiplied by every strip of tape added, especially if there is a lot of overlap. That being said, I still try to add a single layer of tape along the spar line on the inside halves of the wing. If its a lightweight bird, I use normal packing tape. If its something a little larger, I use the extreme tape.
When the tape spar works, it works well. The only real penalty is a tiny bit of extra weight.
The only major caveat to the tape spar (tape in general) is its ability to adhere to the build surface. EPO and EPP foam can flex enough to pop the tape loose and that pretty well negates the benefits of the tape. Depending on the plane, that flex may occur more often than not, so it may be not be a good long term build method. On flat foam that has a paper coating you're left at the mercy of the adhesive used to bond the paper to the foam. With repeated exposure to humidity, hangar rash, general handling, and less than stellar landings the foam and paper usually part ways taking the tape away with it. I have tried removing the paper and applying the tape directly to the foam. For whatever reason, the tape just does not like bare foam. Ive tried several different types of tape and while some stick better than others, none of them bond very well with it. I found that Gorilla tape sticks very well, but at the cost of a huge weight penalty. There is always spray adhesive. The only issue with that is the mess and hassle of trying to apply tape to a surface that is constantly trying to apply itself to you, and the fact that if your not careful the spray will eat your foam. My shop is still a mess from the last time I used it. Everything is coated in a sticky film and that has been well over a year ago. Thanks 3M for making a superior glue. lol.
All of that to say, when you build your plane and your about to start adding your internal spars, consider adding a few extra strips of tape along the spar line from end to end, especially if youre not going to be using tape to pretty up your bird. It can greatly reduce the flex in your build material and it will help reinforce your spar. As evidenced by his experiment, even adding tape to the spar increases its strength.

VERY interesting video, I wonder what's the impact of even-tamper curved profile of the experimental airline vs the hard edges of the flite test wing on the overall wing strength.
Thanks for sharing

I've been experimenting with various sizes of 36" long Balsa sticks ranging from 3/16" x 3/4" up to 3/8" x 1" with beveled upper edges and a bead of Foam-Safe CA glue on the top and bottom. Once the glue impregnates the wood a bit and dries, it creates a super stiff layer. It's surprisingly strong, if a little heavier than a DTFB spar.
I'd love to see a strength comparison of that against an EA style spar.
I definitely need to remove the paper inside mine though. Getting a smooth curve is nearly impossible otherwise.

You could use both versions and have an even stronger albeit heavier wing ...ea style spar for a forward spar and a ft half spar as a rear spar...depending on your wing size of course

Now that was in depth, I have wondered for a while how much stiffness the carbon spar gives me, (a whole lot it turns out!) now I wonder about vertical plywood, aluminum angle, and carbon strip.. another video?

Спасибо за видео 👍

I would have liked to see a combination of both ;)

Great informative video thank you, what about a triangular foamboard spar? it might not form the aerofoil as nice as the Flat stack EA spar but I think the strength would be better.

hope to see a dlg EA scratch build!

also use ribs in foam as well very strong

Very informative. Personally, I think your design is better simply because it is easier to construct and because it is stronger. Also, your wings are a lot more compact and sleek compared to some of Flite Test's designs, which means there's probably less drag on your planes. Can't say for sure without wind tunnel tests or scientific trials though, but that's what my intuition tells me.

I watched this video with interest. Although I don't fly winged aircraft, I flew control line stuff back in the late '60's as a kid and was mentored by some old McDonnell Douglas engineers. They stressed strength to weight highly, and it has influenced everything that I have build since then.
The one test that I wanted to see was your EA 3 ply spar turned on edge like the Flite Test 2-ply spar. My curiosity leads me to think a well adhered laminate would bring more of the I-beam strength to the study.
Two thoughts, how are you adhering the foam layers, and how about cutting the spar after the glue has dried. I'd like to see if the paper layers plus the adhesive are stronger in the vertical application.
My hobby has been woodworking for the last 30+ years, and it's usually true that if a structural support is wider than it is tall it is almost always stronger in the vertical orientation.
The only issue I am concerned about is finding a glueing technique that is light enough that yields a good bond that isn't brittle.
The one product that I can think of right now is Titebond makes a liquid hide glue that is used in wood veneering that is tough, thin, and has a long "open" time to give you time to align the poster-board while both bonding sides are still wet enough to flow to eliminate most of the air.
I think it might be worth a try.
Hey, if it intrigues you perhaps one day you might try it. You already have some much data collected, it might be worth that addition.
I like to hear your thoughts. You have certainly provided a thoughtful presentation.
Thanks !

I have noticed that the latest flight test designs use a U shaped spar and that they are putting the servos in the spar. Have you tested that design spar?

I recommend wooden spar because if you try to be as cheap and quick as possible, hard wood stick is the answer.

Hi, I have been playing with incorporating the Plastic strapping you get round big packages, bricks etc into my spars with some good results.
Hot glue however isn't compatible with these materials and so I have been using gorilla glue.
It adds a lot of strength and little weight.

thank you for this really detailed and professional video, very helpful indeed. Just wanted to ask you, is foam board better or depron. thank you again.

Hola desde España. He aprendido mucho de tus videos yo también me dedico a este fabuloso mundo del aereomodelismo. Darte las gracias en primer lugar por todo lo q haces por este canal.... Me gustaría por favor q me dijeras donde puedo comprar el material q tu unas en tus proyectos y sie podruas pasar las medidas del phanto q tienes. Muchas gracias de nuevo.....

Vary NICE. Tankyou.

I have found the strength of the wing doesn't depends alot on the spar. it's the fold on the foam.
But all in all, wonderful video Ed.. hope to see many more.

What keeps the upper surface from pulling the lower surface trailing edge upward?

Seems pretty clear: Overall performance - lower weight with better yield goes to FT design. Which is easier to build is rather subjective - I'd go with either. But, how many wings fail mid-span on an even spar? None for me. Wing joints, etc, are where the issue typically falls, and the entire chord design is crucial, including spars, etc. Thanks for the analysis.

For taper wing I prefer FliteTest type.

ive been making my spars using a pallet strapping sandwich.. strap/foam/strap.. this gives a very strong spar...the straps can be fixed on the spars or on the outside of the wing..

The EA design is good but if you turned the spar 90 degrees so the glue edge was up and down instead of front and back that would I'm sure make a tougher design, Thanks Ed for yet another great video. Now go and do some flying.

I'd like to try making the I-beam style, but instead of an I-beam, make it a triangle, since that's the strongest geometric shape, just big enough to accommodate a carbon arrow shaft for the spar inside the triangle. The typical AE Armin wing design with carbon arrow spar has worked really well for me, but I notice a little shimmy sometimes on the videos from the flex under stress. Maybe this design will help.

Ed - Have you considered an alternate method of covering using craft paper & glue? Instead of packing tape on the outside, use brown craft paper saturated with white glue diluted 50% with water. I'm curious what the weight, tension, compression and crush load differences would be using this method over the FT method of leaving the paper on the foam board and your method of using packing tape covering.

I'm curious what about a foam box (and or a triangle) spar made from one piece of foam board? or even if the shape matters such as having a taper or not. I may have to do some experiments on this.

hey Ed, do you have the ability to do an experiment to show which airfoil has better lift. Or do you already know?

I have been watching both Flight Test and ExperimentalAirlines videos and have to wonder what both have against composite construction? Seems to me that foamboard in combination with wood/ply/carbonfiber would be stronger and depending on design possibly lighter.

Hey Ryan (YBR) did you buy that color printer yet , by the way , nice mod , I've downladed it and it was great .

Any difference in flight characteristics? Particularly, the curve vs bend in airfoil?

I've done the flitetest method for a flying wing with tapered wings and it is very strong. In certain circumstances, the flitetest wing is better, absolutely.

Like your design more. It may add more weight but I like over designs. EA airfoil looks like a real air foil and I am sure it will beat FT design in any aerodynamics test.

What about a triangular prism spar? (never built an rc plane in my life so there may be complications that I am not aware of)

Hello. Have you tried an actual "I" beam? Aka a combination of both thereby taking advantage of strength and weight?

what if you just make a thin EA version, so that it weighs less but is stronger than the vertical one. Is this possible?

The idea of this video was not terrible but It wasn't an apples to apples comparison.

I cannot help but marvel the fuselage design is square, but the spar design isn't. What I am thinking is if you made a box spar and filled it with something, you would have all the strength your designs would need. I noticed you like to put carbon fiber tubes as spars in the wings, so the carbon fiber tube is doing most of the work and the only purpose of the foam strips is to fix its location. The foam strips just don't add all that much strength to the wing design, so it is easy to believe using a lot more foam just doesn't do much for the design other than add weight and use up more foam board. What if you couldn't buy the carbon fiber tubes due to cost and availability? That would suggest other options would be needed, as well as tests. In all likelihood that would mean other ideas for spars would need to be explored. Homemade spar tubes, or squares? How about a box spar with a foam-n-can fill? What about a box spar made of foam with balsa wood fill, or some other type of fill? The fiber tape idea is fast, but is it practical, or cost effective? LIkely not compared to other options. Let me make a recommendation that may be what you are looking for. Using foam strips, glue them together without the paper skins with a lightweight urethane glue that foams to save weight. You don't need more than a very thin film on the surface of each foam strip to end up with a FT style box spare of at least three layers of foam board strips. In this case the glue is doing most of the work and the foam is just a space filler. Keep in mind the glue needs to cure under pressure and how much is used can make a difference. Key points are the design is lightweight, provides a generous surface for the wing skins, has no paper weight penalty, can be shaped easily to match the desired curve of the top wing skin, and other modifications can increase the strength many times over. Even a thin strip of balsa that matches the width of the foam board strips can increase the spar resistance to failure many times. I could offer more to ponder, but this is an old video and I'm not sure you will want to test some of what I have offered.

Жалко что нет перевода, интересно бы послушать и понять рассуждения и выводы.

what size of foam board should be used?

Sir for 5 or 6 kg weight which material will be required.???

there are colored foamboard, so you can make a nicer model using transparent packing tape, or you can also paint the white foamboard.

iS COROPLASTIC 4MM BETTER FOR A WING DESIGHN?

Vale a pena .

i make a ply wood T very strong and light out of 1/8th i made them for my cargo plane 1/2"by 1/2"

why not a vertical stack with a horizontal topper?

Having built a real aircraft spar and wings (Cozy MK4), and building a box shape spar, using unidirectional fiber glass strands, I can tell you the box design is a must.
I-Beam spar design is not rigid enough. LongEZ, and many other composite aircraft, have the same construction technique.
These are planes that people fly in!

How about using the same amount of foam? Vertical vs stack, same amount... I think it isn't fare to compare them the way you did. I'm confident that vertical would win.

Would you mind to do a comparison video between the turbulent FT wing and your smooth wing ?

Wow- teaching old dog some new tricks... the tiny amount more weight /versus better perform/and better strength! that's way to go.. 2019- the added piece of test flite.. carbon .. was wonderful /for the speed demon flyers. Us ..slow flyers needs like add 3 inch width + A lot new ways to strengthen the wing /make it last WAY longer= Walmart gots these $0.89... bamboo bar b que scuewers.. like 10 them X 2 feet long.were rubber bands get applied.. add long pieces.. these are slightly larger round and barely fit the 3/16 foam :>) … its perfect. Stops middle snap and keeps rubber bands from dig into the foam ! if add slightly larger tail /rudde r + the 3 inch width to the wing-=u get a sloooow video flyer/trainer. and can handle bigger 3,s battery for longer flight time ! first flight /beginner/ try the super slow wing= make spares and cover top only- cupped both under and over wing= The plane Will Fly Sooo Slow! 5mph.... crazy! hint.. tilt the motor holder down a bit! :>) omg :>)...

When you build the wing do you remove the paper on the inside of the wing ?

The FT Simple Cub I've built and the FT Tutor I'm build now have a "U" shaped foamboard spar. I'm guessing the "U" shape is superior to both the spars that you show in this ~ 6 year old video.

Stack and Vertical.. (with narrower stacks) attach them together :)

E A design vertical would be the best. try vertical instead of horizontal. better yet. E A design individually skinned in packing tape before glued in the stack.

Most importantly, which creates more lift

I like flight test but I never cared for their airfoil designs I prefer a flowing airfoil . I'd like to see a wind tunnel test their airfoil design it seems like there would be turbulence around those angles that would reduce the efficiency of the wing . However there are examples in full scale aviation for this angular type of wing is used is called a biconvex airfoil one example would be the F104 starfighter when I was in the Navy we hosted A squadron of F-104 from Canada I was checking out their aircraft on our flight line the leading edges are like axe sharp . I suspected that aircraft hit you at any considerable speed it would just slice you in half .

I'm confused... FT spars don't look like that, they have a "C" shape. Is that something they've changed since this video was published?