---------------------------------------------------------- Pulsar-List Digest Archive --- Total Messages Posted Fri 01/04/13: 4 ---------------------------------------------------------- Today's Message Index: ---------------------- 1. 05:21 AM - Re: Stiff Aileron (Bill Landucci) 2. 09:30 AM - Re: Stiff Aileron (Petra Vomberg) 3. 09:56 AM - Re: Stiff Aileron (Larry Wheat) 4. 09:56 AM - Re: Stiff Aileron (Tom Gibbons) ________________________________ Message 1 _____________________________________ Time: 05:21:52 AM PST US From: Bill Landucci Subject: Re: Pulsar-List: Stiff Aileron I as well have noticed this. The good thing is that it didn't seem to get any worse at extreme cold temps. I've registered -20F on several flights, and on several occasions, not much warmer than that while doing pre-flight control checks. Stiff, but still smooth and responsive - no sticking. The rudder, on the other hand, gets very 'sticky' when warm. Especially on hot days during the flight or after landing. I think this is due to the nylon bushings in the steel tubes of the rudder pedal assembly. The rudder moves smoothly on it's hinges, but the pedal assembly sticks. In the series III the water coolant lines (four 1" hoses) run under the pedal assembly platform - providing some nice radiant heat. Bill L On Jan 3, 2013, at 7:42 PM, barrynorman@comcast.net wrote: > I noticed after an extended flight up to Baltimore in low 20 degree F temps that my ailerons took significantly more effort to move than normal. After I landed, I checked out the plane and found nothing wrong. It appeared to have improved some on the ground with slightly higher temps in the low 30s. After thinking about it today I looked up the expansion/contraction rate of wood (rear spar) and aluminum (aileron) and did a calculation on the length of the aileron and found the difference was .020. Bottom line is I was wondering if that's enough to create bind in the hinges due to the difference in installed temp and the cold air I was flying in. When I think back to when I was testing the plane 7 years ago in cold air, they were stiff then also. I'm considering removing the ailerons and filing a little more clearance in the tabs on the hinges to see if that helps the situation. > > Any thoughts? > > Barry > > > > ________________________________ Message 2 _____________________________________ Time: 09:30:01 AM PST US Subject: Re: Pulsar-List: Stiff Aileron From: Petra Vomberg Barry, On my Pulsar III, I also have stiff ailerons at below freezing temps. I just used an oil on the hinges, the aileron control tube slider bushing, and all ball joints thats good for low temps to help the situation. Regards Dan Am 04.01.2013 2:42 Uhr schrieb "barrynorman@comcast.net" unter : > I noticed after an extended flight up to Baltimore in low 20 degree F temps > that my ailerons took significantly more effort to move than normal. After I > landed, I checked out the plane and found nothing wrong. It appeared to have > improved some on the ground with slightly higher temps in the low 30s. After > thinking about it today I looked up the expansion/contraction rate of wood > (rear spar) and aluminum (aileron) and did a calculation on the length of the > aileron and found the difference was .020. Bottom line is I was wondering if > that's enough to create bind in the hinges due to the difference in installed > temp and the cold air I was flying in. When I think back to when I was testing > the plane 7 years ago in cold air, they were stiff then also. I'm considering > removing the ailerons and filing a little more clearance in the tabs on the > hinges to see if that helps the situation. > > Any thoughts? > > Barry > > > > > ________________________________ Message 3 _____________________________________ Time: 09:56:01 AM PST US Subject: Re: Pulsar-List: Stiff Aileron From: Larry Wheat I experienced the same thing BUT my problem was the center stick. I disconnected the ailerons and the stiffness remained leaving the joystick as the culprit. I burnished and polished several times with crocus cloth and polishing wheel. After 5-6 tries I finally got it to the right diameter for a good fit. The perplexing thing is that it was normal for 50 hrs. All of a sudden in 45 degree weather it stiffened up. Some food for thought. Don't know if it is the aluminum (which should have contracted if anything) or the micarta bearings. Anyway seems to be ok now. Some food for thought, Cheers, Larry N852LW On Thu, Jan 3, 2013 at 5:42 PM, wrote: > I noticed after an extended flight up to Baltimore in low 20 degree F > temps that my ailerons took significantly more effort to move than normal. > After I landed, I checked out the plane and found nothing wrong. It > appeared to have improved some on the ground with slightly higher temps in > the low 30s. After thinking about it today I looked up the > expansion/contraction rate of wood (rear spar) and aluminum (aileron) and > did a calculation on the length of the aileron and found the difference was > .020. Bottom line is I was wondering if that's enough to create bind in > the hinges due to the difference in installed temp and the cold air I was > flying in. When I think back to when I was testing the plane 7 years ago in > cold air, they were stiff then also. I'm considering removing the ailerons > and filing a little more clearance in the tabs on the hinges to see if that > helps the situation. > > Any thoughts? > > Barry > > * > > * > > -- Larry Wheat ________________________________ Message 4 _____________________________________ Time: 09:56:49 AM PST US From: "Tom Gibbons" Subject: Re: Pulsar-List: Stiff Aileron Seems to me like a great question for Mr. Hartunian! Bob?? Always wondered about that up here in the REAL cold land! Tom From: barrynorman@comcast.net Sent: Thursday, January 03, 2013 7:42 PM Subject: Pulsar-List: Stiff Aileron I noticed after an extended flight up to Baltimore in low 20 degree F temps that my ailerons took significantly more effort to move than normal. After I landed, I checked out the plane and found nothing wrong. It appeared to have improved some on the ground with slightly higher temps in the low 30s. After thinking about it today I looked up the expansion/contraction rate of wood (rear spar) and aluminum (aileron) and did a calculation on the length of the aileron and found the difference was .020. Bottom line is I was wondering if that's enough to create bind in the hinges due to the difference in installed temp and the cold air I was flying in. When I think back to when I was testing the plane 7 years ago in cold air, they were stiff then also. I'm considering removing the ailerons and filing a little more clearance in the tabs on the hinges to see if that helps the situation. Any thoughts? Barry ------------------------------------------------------------------------------------- Other Matronics Email List Services ------------------------------------------------------------------------------------- Post A New Message pulsar-list@matronics.com UN/SUBSCRIBE http://www.matronics.com/subscription List FAQ http://www.matronics.com/FAQ/Pulsar-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/pulsar-list Browse Digests http://www.matronics.com/digest/pulsar-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.