----------------------------------------------------------
                           Europa-List Digest Archive
                                      ---
                     Total Messages Posted Sun 05/31/15: 3
           ----------------------------------------------------------
 
 
Today's Message Index:
----------------------
 
     1. 06:08 AM - Re: MAUW Increase  (John Wighton)
     2. 07:02 AM - Re: Re: MAUW Increase  (Robert Borger)
     3. 06:09 PM - Re: Europa aileron hinge replacement  (Bud Yerly)
 
 
 
________________________________  Message 1  _____________________________________


Time: 06:08:24 AM PST US
Subject: Europa-List: Re: MAUW Increase
From: "John Wighton" <john@wighton.net>


An increase in MAUW for the Europa (or any other LAA Permit aircraft) nowadays
requires a significant amount of engineering work culminating in a rational and
fully detailed submission to the Engineering office at the LAA.  Long gone are
the days when partial submissions and/or data based on predominantly observation
based in-service history are sufficient to achieve the desired result.

For the Europa there was never (to my knowledge) a full submission made, it's approval
being in the days when the system was less obstructive.  If there was
a fully detailed submission it could be used as a baseline for a MAUW increase,
probably based solely on an extrapolation of the existing stress work and/or
a new interpretation of the factors used in the original.

There seems to be a misunderstanding that an increase in MAUW only affects the
wing, the reality is the entire airframe structurally (and it's aeroelastic responses)
are influenced by the additional mass.

I started to look at the Europa structure many years ago whilst conducting stress
analysis on the FLYER magazine aircraft.  At that time they not only wanted
to go through the process of building a Permit aircraft but (somewhat ambitiously)
decided to implement some major modifications.  The final result is, thankfully,
flying successfully today (G-MLXP by Mike Davies) albeit without the
BRS mods.  The justification reports for that Mod required a simulation (FEA)
of the entire front end of the Europa, which l made on a ply by ply basis 'laying'
up the FE model in the same way that kit is built.  The finished model was
stressed using JAR-VLA derived loads (pre CS-VLA) and then the Mods were applied
thereby showing the differences in loads.  To cut a very long story short
the LAA finally accepted the Mod after Mike (who purchased the project from FLYER)
agreed to increase the level of reinforcement around the MLG.  The context
of this tale is that my business, as a CAA approved E1/E2 DOA (with the scope
to design and submit type certification for complete JAR-VLA aircraft) was
unable to persuade (then PFA) LAA Engineering that we had a good solution. The
end result is (most probably) heavier than it needs to be.

The above is an illustration indicating the amount of justification required to
achieve a successful Mod application.  I could add further tales of woe to illustrate
just how difficult these applications are when made via the LAA.

So, cutting to the chase, to achieve a MAUW increase >1370lbs will require probably a complete loads and stress analysis of the aircraft as if it were a new design.  It would also most likely require us to conduct material qualification/characterisation tests in order to alleviate the composite special factor (1.5) used.  Any data relating to the foreign fleet would be of interest but is unlikely to be of any real value.  Had one of our enterprising US cousins strain gauged their aircraft and conducted flight tests under strict (CAFE type) conditions (see http://209.83.103.25/home/flight_reports/europa_classic. (h t m l )
we may have some useful data to correlate the stress analysis with.

My own view (having inadvertently flown my own Europa at >MAUW with a marginally
aft CG whilst in CH) is that it is probably OK structurally and from a stability
and control point of view.  Landing at such high weights (admittedly unlikely)
may not work out so well (tri-gear and/or mono).

With swift concentrating on their new aircraft program, which l learned yesterday
will also be a kit (and then a TC) aircraft, they will unlikely be willing
to devote their own engineering resources to a Heavy Europa Mod (HEM). 

Input/opinion from Europa Club members and non-member owners (shame on you, wherever
you are) on this matter is welcome.  If enough people want a Mod (with/without
structural changes) then we can perhaps take it further.

Regards
JW

--------
John Wighton
Europa XS trigear G-IPOD


Read this topic online here:

http://forums.matronics.com/viewtopic.php?p=442833#442833


________________________________  Message 2  _____________________________________


Time: 07:02:51 AM PST US
Subject: Re: Europa-List: Re: MAUW Increase
From: Robert Borger <rlborger@mac.com>


John,

Thanks very much for your detailed description of what is needed for an LAA MAUW
increase.  The LAA not only make it onerous but also expensive to complete.
Ive not tested my aircraft with a fully aft CG at any weight so I cant speak
to that.  But, N914XL has been tested in general flight conditions at 1449 lbs
with CG at 61.267 (185 lb pilot, 135 lbs in the passenger seat, 80 lbs in the
baggage bay & 17 gal of fuel with the results stated in my last e-mail.  I wish
you folks the best of luck in obtaining you MAUW increase approval.

Blue skies & tailwinds,
Bob Borger
Europa XS Tri, Rotax 914, Airmaster C/S Prop (75 hrs).
Little Toot Sport Biplane, Lycoming Thunderbolt AEIO-320 EXP
3705 Lynchburg Dr.
Corinth, TX  76208-5331
Cel: 817-992-1117
rlborger@mac.com


On May 31, 2015, at 8:07 AM, John Wighton <john@wighton.net> wrote:


An increase in MAUW for the Europa (or any other LAA Permit aircraft) nowadays
requires a significant amount of engineering work culminating in a rational and
fully detailed submission to the Engineering office at the LAA.  Long gone are
the days when partial submissions and/or data based on predominantly observation
based in-service history are sufficient to achieve the desired result.

For the Europa there was never (to my knowledge) a full submission made, it's approval
being in the days when the system was less obstructive.  If there was
a fully detailed submission it could be used as a baseline for a MAUW increase,
probably based solely on an extrapolation of the existing stress work and/or
a new interpretation of the factors used in the original.

There seems to be a misunderstanding that an increase in MAUW only affects the
wing, the reality is the entire airframe structurally (and it's aeroelastic responses)
are influenced by the additional mass.

I started to look at the Europa structure many years ago whilst conducting stress
analysis on the FLYER magazine aircraft.  At that time they not only wanted
to go through the process of building a Permit aircraft but (somewhat ambitiously)
decided to implement some major modifications.  The final result is, thankfully,
flying successfully today (G-MLXP by Mike Davies) albeit without the
BRS mods.  The justification reports for that Mod required a simulation (FEA)
of the entire front end of the Europa, which l made on a ply by ply basis 'laying'
up the FE model in the same way that kit is built.  The finished model was
stressed using JAR-VLA derived loads (pre CS-VLA) and then the Mods were applied
thereby showing the differences in loads.  To cut a very long story short
the LAA finally accepted the Mod after Mike (who purchased the project from FLYER)
agreed to increase the level of reinforcement around the MLG.  The context
of this tale is that my business, as a CAA approv!
ed E1/E2 DOA (with the scope to design and submit type certification for complete
JAR-VLA aircraft) was unable to persuade (then PFA) LAA Engineering that we
had a good solution. The end result is (most probably) heavier than it needs
to be.

The above is an illustration indicating the amount of justification required to
achieve a successful Mod application.  I could add further tales of woe to illustrate
just how difficult these applications are when made via the LAA.

So, cutting to the chase, to achieve a MAUW increase >1370lbs will require probably a complete loads and stress analysis of the aircraft as if it were a new design.  It would also most likely require us to conduct material qualification/characterisation tests in order to alleviate the composite special factor (1.5) used.  Any data relating to the foreign fleet would be of interest but is unlikely to be of any real value.  Had one of our enterprising US cousins strain gauged their aircraft and conducted flight tests under strict (CAFE type) conditions (see http://209.83.103.25/home/flight_reports/europa_classic. (h t m l )
we may have some useful data to correlate the stress analysis with.

My own view (having inadvertently flown my own Europa at >MAUW with a marginally
aft CG whilst in CH) is that it is probably OK structurally and from a stability
and control point of view.  Landing at such high weights (admittedly unlikely)
may not work out so well (tri-gear and/or mono).

With swift concentrating on their new aircraft program, which l learned yesterday
will also be a kit (and then a TC) aircraft, they will unlikely be willing
to devote their own engineering resources to a Heavy Europa Mod (HEM). 

Input/opinion from Europa Club members and non-member owners (shame on you, wherever
you are) on this matter is welcome.  If enough people want a Mod (with/without
structural changes) then we can perhaps take it further.

Regards
JW

--------
John Wighton
Europa XS trigear G-IPOD


________________________________  Message 3  _____________________________________


Time: 06:09:29 PM PST US
From: "Bud Yerly" <budyerly@msn.com>
Subject: Europa-List: Re: Europa aileron hinge replacement


Willie,
Aileron hinge wear in 10 year old aircraft never lubed is common.  Most 
civil aircraft pilots never look at the hinges, as a mechanic or A&P, over 
here in the US, are supposed to know the wear limits, and trust that the 
civil authorities will keep their aircraft safe, however to be frank, there 
are no limits published. If the hinge pin is worn, a good mechanic will look 
at a new hinge gap movement, then note the limit they feel is safe. 
However, in experimental aircraft, most guys don't trust the aircraft and 
are really concerned as it was built by an amateur.

That said, normally a 10 year old 1000 hour aircraft which has been hangared 
has hinge pin wear of about .015 more than new which is about .013 inches so 
a total slop of nearly .03 inches.

Wear of the aileron hinges above is rare in my experience.  However, I have 
seen a number of aircraft that have been built with misaligned hinges or 
have an aileron and wing misfit.  By misfit I mean that the wing tip curves 
up but the aileron is straight.  The builder builds his hinges flat on the 
aileron and then the bow of the wing to aileron causes the hinges to be 
under a slight bending load.  This is evident prior to finishing when the 
aileron has what feels like a spring in it as the fiberglass is the spring. 
This causes the hinge to wear quickly.  In this case, the hinges must be 
removed and the aileron and hinge properly aligned.

Removing a hinge is a fairly short job:
1.  Remove the aileron.
2. Check hinge alignment with an angle stock sufficiently long enough and 
check the the hinge alignment on the aileron and on the wing.  Shimming the 
wing hinge bed may be necessary to assure hinge alignment.  Shimming must be 
done to keep the hinge pins straight regardless of the bow of the wing. 
Normally, we tape up the hinges with release tape then make a bed of Redux 
to make a bed and assure a straight hinge line.  If the tip of the aileron 
bows away from the wing, we fill the wing.
3.  Prepare to remove the hinges by removing the paint from the inside of 
the aileron hinge top and surrounding reinforcing layups.  Note the rivets 
position in relation to the aileron foam and glass so you don't damage the 
aileron structure.
4.  Using a 4 inch thin cutting disk on an air grinder I  lay the grinder on 
the hinge being careful  to only cut off the rivets and impact the hinge, 
not the glass or foam.
Note:  The grinding action heats the rivets and loosens the epoxy while also 
cutting the rivet tail off.  This also cuts the hard metal rivet stem off 
making the rivet easy to drill.  This heating will generally expose the 
rivet heads which are countersunk, and filled with filler making them easy 
to see.
5.  Using a countersink (119 degree non post type) in a slow drill, cut the 
rivet head off, or just drill out the rivet with an 1/8 inch bit.  The 
drilling and grinding will loosen the rivet head for you.
6.  Gently pry the hinge to see if the heating has loosened the hinge from 
the aileron inner skin.  If it hasn't loosened the hinge, either use the 
grinder on the hinge to heat it or a 40 watt soldering gun to heat the 
aileron hinge only until just too hot to touch.  DO NOT USE A HEAT GUN! 
Then pry the hinge free of the flox bed it was mounted in.
7.  Clean up the glass/flox bed with sanding action by hand or if quite 
proficient with power tools, a carbide cutter and an air or electric hand 
tool to prep the aileron inner skin.  Don't screw up the aileron skin.
8.  With the hinge free at last, make a new hinge as close to the original 
as possible (providing they are OK).  Don't copy the holes just yet.
9.  Follow the aileron hinging instructions in the build manual to align and 
set the aileron hinge to the aileron.
Note:  Pay attention to the hinge alignment.  You must also be careful in 
your hinge alignment to allow you to use the previous rivet holes in the 
wings in new aileron hinge and still maintain hinge edge distance.  If in 
doubt make the hinge longer.   When all is well, rivet it home.
10.  Once the hinges are on the aileron, set the aileron into the rebate and 
check it is in the same position.  If all looks well on the position, gap 
and rebate, then mark it.  The wing hinge side is flopping around,  so prep 
your hinge with a lump of clay to hold the hinge out in position.  Next, 
"offer" the aileron up to the wing again, and carefully mark one of the 
screw holes for drilling on each hinge.  Once the one hole is marked, remove 
the aileron and drill the one hole in each hinge to 3/16 inch.  Offer the 
aileron up again and fit with a 3/16 inch cleco to hold.  Try the aileron in 
place and check alignment.  If all is well, remove the aileron again (yes, 
if you haven't put it together and taken it apart at least 5 times, your 
screwing up), then apply  a dab of  5 minute glue, contact cement, or super 
glue to the wing side hinge, and cleco it up again.  Allow to cure.  Check 
the movement, and if all is well, drill and cleco the remaining holes. 
When all the holes are drilled, crack the aileron hinge loose.
11.  Nut plate the screw holes in the hinge (making sure to countersink the 
PROPER SIDE), then install.
12.  Only a small amount of paint and filler is necessary over the 
countersunk rivets...

Typically it takes a day or two to finish the task.

Best Regards,
Bud Yerly
Custom Flight Creations, Inc.


-----Original Message----- 
From: William John Harrison
Sent: Saturday, May 30, 2015 3:32 AM
Subject: Europa aileron hinge replacement

Dear Bud

Steve Pitt suggested I email you. I am a Europa owner in the UK. My 
aircraft, which has approx 500 hours (and 12 years) since new, has developed 
severe wear on both outboard aileron hinges. They need to be replaced. The 
inboard hinges are fine and this problem has developed progressively over 
the past two years.

I wondered if you could help with two questions:

1. How common is this problem? If it isnt common, then something must have 
been wrong with the hinges, or the way they have been lubricated over the 
years (lithium aerosol spray every 25 hours).

2. Do you have any experience of changing aileron hinges? Are you able to 
offer any advice and guidance about how to do this?

I didnt build the aircraft myself and I have no real skills in composite 
layup. However, my inspector (Tony Kay) has said he can help me with this 
and he certainly is an expert with composites.

Withe best wishes

Willie


 

-------------------------------------------------------------------------------------
                       Other Matronics Email List Services
-------------------------------------------------------------------------------------
Post A New Message               europa-list@matronics.com
UN/SUBSCRIBE                     http://www.matronics.com/subscription
List FAQ                         http://www.matronics.com/FAQ/Europa-List.htm
Web Forum Interface To Lists     http://forums.matronics.com
Matronics List Wiki              http://wiki.matronics.com
Full Archive Search Engine       http://www.matronics.com/search
7-Day List Browse                http://www.matronics.com/browse/europa-list
Browse Digests                   http://www.matronics.com/digest/europa-list
Browse Other Lists               http://www.matronics.com/browse
Live Online Chat!                http://www.matronics.com/chat
Archive Downloading              http://www.matronics.com/archives
Photo Share                      http://www.matronics.com/photoshare
Other Email Lists                http://www.matronics.com/emaillists
Contributions                    http://www.matronics.com/contribution
-------------------------------------------------------------------------------------

These Email List Services are sponsored solely by Matronics and through the 
generous Contributions of its members.