Andy Boylett wrote:Now I have completed the basic structure of the wing centre section I have load tested it.
My wing spar and joiner is totally symetrical so it does not matter which way up it is
Andy Boylett wrote:No I don't think I was confusing anything.
Andy Boylett wrote:OK, now I have built the centre wing joiner...
Andy Boylett wrote:Hi Mark,
The centre joining 'spar is made with solid wood that is not 'string'. Unlike string, this wood can take load in compression and hence it matters little which way up it is tested. The 'string' example often used in aeronatics is I beleive because the lower part of an aeroplane main spar is designed to take a high tension load (like your string), but because it is relativley thin it cannot take a similar compression load and will buckle.....it is used to try and get peopl to understand designs with tension only components. The deisgn of my spar is the same either way up and the only difference is that is ikely that the side in compression will fail first because the ply will delaminate....but up to the point of failure it will still behave with a normal compressive modulus.
Andy Boylett wrote:If you are using the string example to say that the friction between the floor and the 2 load points of the wing is assisting the load then I think it is negligable. The wing angle is 4.5 degrees and the load points are the edge of ply the ply ribs. Testing this way would usually be on rollers but in this case the angle was very low. If friction was absoltely perfect then the maximum 'assistance' by the ground would be a factor of 0.078 (tan45 deg) or less than 2%.
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