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RE: Europa-List: Europa Tailplane - Mod 73

Subject: RE: Europa-List: Europa Tailplane - Mod 73
From: Karl Heindl <kheindl@msn.com>
Date: Sun, 15 Jul 2007 14:49:53

Nigel,

I understand all that and your mod should have been made standard a long 
time ago. But what about older Europas ? We hear reports about disbonded 
TP6s but we don't hear how they were repaired. I really would like to know. 
A suitable retrofit mod should also have been made available as soon as this 
problem was known.
I still say that there is no way the tailplane can move if the pip pin head 
is firmly against solid material on the inboard side. You say there is 
always a gap, but that gap is filled with floxed epoxy, and the head is 
inside a close fitting plastic pipe in my case. I think another builder 
recently told us about a similar mod he made. The remaining space around the 
pipe is also filled with epoxy. Of course all these solutions are based on 
theory and only a lab test could verify the claims.
When my TP5s disbonded from trailering I was kicking myself for not having 
installed a one-piece pipe, but in those early days I was very careful to 
follow the build instructions precisely. I stll think that a retrofit of a 
one-piece sleeve  would be more than strong enough to prevent any future 
disbonding, and would be a relatively easy solution where the TP6s have 
already disbonded.

As far as the accident goes, we still don't have any real conclusive 
evidence about the sequence of events. Only a number of theories. Only a 
wind tunnel test would verify the flutter theory, but who is going to pay 
for that ? Eyewitness reports can be very misleading.
If the wing trailing edge pin came off first, is it possible that the pilot 
was getting set up for landing and deploying flaps and undercarriage ?

I also like the other suggested solutions where a lock is put behind the 
TP12


Karl


>
>
>Karl,
>
>I have attached below, an excerpt of a long mail I sent to the PFA that
>describes a sequence of events that could lead to the tailplain moving
>outboard. Out of interest, there is always a gap between the pip-pin and 
>the
>face of the rib.
>
>This was sent before the current Mod 73 was issued, but you will see why 
>the
>temporary remedial action has been to reinforce the pip-pin hole.
>
>Nigel
>
>
>-------------------------------
>Excerpt
>
>...... The only thing preventing each tailplane moving sideways is a single
>pip-pin that passes through the TP6 bush and into the TP4 torque tube. (See
>Fig.5 Chap 4)
>The design relies on a good bond to hold TP6 in place, however only the
>protruding outer 12mm (just 8mm on TP5) is required to bond to the 
>tailplane
>rib that will subsequently be laid-up onto it. Epoxy adhesive does not bond
>well to stainless steel - so the potential for this bondline to fail is
>great.
>This tiny bondline is the only "design" load path to prevent the tailplane
>moving laterally. If the bond failed, the loose TP6 bush would tend to push
>its way inboard into the soft blue foam, allowing the tailplane to move
>outboard. The TP5 bush would offer no resistance since it would simply 
>slide
>along the TP4 torque tube.
>
>In some early Europas, this TP6 bush has de-bonded and it is only the
>laminations into the "PipPin" access hole that prevent any lateral movement
>of the tail-plane. This lamination was never intended to be structural. If
>the aircraft is high-time and habitually operated off rough strips, it is
>logical to predict that the continual fretting would cause the glass around
>the pip-pin hole to chafe, opening up the hole to a point where the whole
>tailplane could slide far enough laterally to allow the tail-pane drive 
>pins
>(TP12) to disengage from their drive bushes (TP13) - The tailplane would
>then oscillate violently with catastrophic results.
>
>Modification 10672) calls for both the Stainless TP5 and TP6 bushes to be
>laminated into an epoxy/Bi-Directional Glass tube before inserting this 
>into
>the tailplane TP2 cores and laminating the ribs. This bonds both bushes 
>over
>their entire surface area, significantly increasing the bond area and more
>importantly, physically tying TP5 with TP6 and both the inner and outer 
>ribs
>together. With this structure, the entire bond surface area and both ribs
>would have to fail before the tailplane could move sideways.
>
>The loadpath is through the mod 10672 and not through the outer skin and
>pip-pin hole - a significantly better engineering solution.
>
>
>-
>
>

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