| T.R | Title | User | Personal
Name | Date | Lines |
|---|
| 1083.1 | Probably worth the effort! | LEDS::LEWIS | | Thu Aug 17 1989 10:36 | 10 |
|
That _is_ the best way to minimize weight and get the best flying
characteristics. I've been too lazy in the past to do it on any
of my powered planes, but I've heard it's the right thing to do.
I'd guess that just matching the weight/shape of the ribs and sheeting
in each wing would net as much benefit as one would be able to notice,
without any computer program.
Bill
|
| 1083.2 | Its been a long time, but... | SUBURB::MCDONALDA | Old Elysian with a big D.I.C. | Thu Aug 17 1989 11:40 | 45 |
| Its been 10 years since I did any mechanics - and even then not
too well, but here's a reason for equalising the rolling moment of the
wings, in addition to their weights.
Say you have one wing heavier than the other. To trim the aircraft,
you stick on a lead lump on one wing such that the 'sum of the moments'
of the two wings are equal; to you and me: the aircraft sits on
an even keel; its balanced.
Intuition says, the best place to add the smallest amount of weight
to achieve this even keel is on a wing tip; and this is more or
less correct. Until you come to fly the glider. And thats where
the problems begin.
Gliders have high aspect ratio wings (long, slender, graceful -
that's why I like them) which are bendy. Put the glider into a roll
or bank, and pull out. That lead weight, all the way on the end
of the wing tip will result in unequal rolling moments for that
wing. If the weight is heavy enough, and the rate for roll great
enough, it is possible for this to break or damage the wing.
To reduce the effects of this force, you could make the weight heavier
and move it closer to the fuselage. But adding unnecessary weight to a
glider requires commital to an appropriate institution.
But there is worse! An evenly distibuted load (i.e. weight) behaves
in a fairly sane manner. Concentrated masses (i.e. lead weights)
can cause rather nasty and unpredictable modes of vibration. And
guess where is, practically, the worst place to stick a weight?
You got it, on the end of a slender, bendy, wing. You can try this
out for yourself. Take a long thin piece of balsa or spruce (say
1/8" x 1/4" x 2'). Hold one end and flap it up and down. Now perform
the same thing with a lump of plasticine or lead weight on one end. Now
hold the strip in the middle and make like you are quickly pulling
out of a roll. The end with the weight on it wants to keep on going,
when th non weighted end has stopped.
There are other second order affects of moments, that may not manifest
themselves too much in gliders i.e. although the moments and weights
are identical; the distribution isn't. As I can't even remember
the name of these affects, I don't think you need lose sleep over
them.
Angus
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| 1083.3 | just a moment | ABACUS::RYDER | perpetually the bewildered beginner | Thu Aug 17 1989 18:26 | 16 |
| Angus is right; the rolling forces go up linearly with radius, but, if
I remember correctly, the moment of inertia goes up by the square of
the component radius. I hadn't thought of the effect in flight.
The reason for asking about a program is this: given enough ribs
and given enough sets of identical ribs of differing weights, there
are a zillion ways to get a net-weight balance --- with a potentially
different rolling moment associated with each of the zillion ways.
The extraordinarily heavy ribs can't always be put near the root.
I _could_ do the calculations by hand, but I probably won't. And
this wing will be built before I get around to writing a program.
There is another alternative. Given that each rib has been marked
with its current weight, I could now go back and cut lightening holes
in the very heavy ones. The net-weight exercise already ensures
that I won't have two such ribs in succession. Comment?
|
| 1083.4 | We did it by hand - tedious. | SUBURB::MCDONALDA | Old Elysian with a big D.I.C. | Fri Aug 18 1989 05:11 | 2 |
| Thats its! Thats it! Re .3 Moments and 2nd moments of inertia. What
'orrible memories it brings back.
|
| 1083.5 | GEEEEEZZZZ | CSC32::M_ANTRY | | Fri Aug 18 1989 11:09 | 5 |
| Geezzzz, remember guys these are toy airplanes....NOT rocket
science!!!!
I ended up with a nickle on one end of the 10' wing in my pantera. I
don't notice a thing.
|
| 1083.6 | It's not THAT critical | LEDS::WATT | | Fri Aug 18 1989 15:10 | 8 |
| Don't go overboard with this! If you sort your heavy and light ribs
and use them equally on both wings, you will only have to add a very
slight amount of weight to balance your wing. I add it at the tip.
The worst I ever had to do was add two medium sized washers at the tip
on a 40 size power plane. Wait til you're at the highest level of
competition where every little bit counts before you spend an evening
with your wood sorting. Then you would throw the heavy ones away and
make new ones instead of sorting them.
|
| 1083.7 | Charlie's right; a simple assignment was sufficient | ABACUS::RYDER | perpetually the bewildered beginner | Sat Aug 19 1989 07:21 | 9 |
| Well, I had all the data, so I did calculate the rib contributions to
the left and right roll moments. I had already assigned the ribs so
as to equalize the net weights to better than one percent (by chance).
Using this simple assignment without any changes, I calculate that [all
else being equal] the wing could be balanced with one eighth of a dime
at one tip. (That's about 11 grams, not a penny. :-) )
I won't be cutting any weight reduction holes or writing any program.
|
| 1083.8 | | TEKTRM::REITH | Jim Reith DTN 235-8459 HANNAH::REITH | Tue Aug 22 1989 10:39 | 1 |
| How much Titebond per gram??
|