X-Virus-Scanned: clean according to Sophos on Logan.com X-SpamCatcher-Score: 1 [X] Return-Path: Sender: To: lml Date: Tue, 20 Feb 2007 15:35:46 -0500 Message-ID: X-Original-Return-Path: Received: from smtp4.na.baesystems.com ([63.164.202.13] verified) by logan.com (CommuniGate Pro SMTP 5.1.6) with ESMTP id 1851633 for lml@lancaironline.net; Tue, 20 Feb 2007 14:39:52 -0500 Received-SPF: none receiver=logan.com; client-ip=63.164.202.13; envelope-from=Christopher.Zavatson@baesystems.com Received: from BLUMS0022.bluelnk.net (blums0022.na.baesystems.com [10.40.96.145]) by smtp4.na.baesystems.com (8.13.6/8.13.6) with ESMTP id l1KJckSt011104 for ; Tue, 20 Feb 2007 14:38:49 -0500 (EST) Received: from GLDMS00005.goldlnk.rootlnka.net ([10.44.64.11]) by smtp1.na.baesystems.com (8.13.6/8.13.6) with ESMTP id l1KJcUCC024810 for ; Tue, 20 Feb 2007 14:38:45 -0500 (EST) Received: from gldms10601.goldlnk.rootlnka.net ([10.64.39.18]) by GLDMS00005.goldlnk.rootlnka.net with Microsoft SMTPSVC(6.0.3790.1830); Tue, 20 Feb 2007 14:37:08 -0500 Received: from GLDMS10607.goldlnk.rootlnka.net ([10.64.39.20]) by gldms10601.goldlnk.rootlnka.net with Microsoft SMTPSVC(6.0.3790.1830); Tue, 20 Feb 2007 11:37:07 -0800 x-mimeole: Produced By Microsoft Exchange V6.5 Content-class: urn:content-classes:message MIME-Version: 1.0 Content-Type: text/plain; charset="us-ascii" Content-Transfer-Encoding: quoted-printable Subject: RE: [LML] Re: Outboard elevator hinge bleeding X-Original-Date: Tue, 20 Feb 2007 11:37:06 -0800 X-Original-Message-ID: In-Reply-To: X-MS-Has-Attach: X-MS-TNEF-Correlator: Thread-Topic: [LML] Re: Outboard elevator hinge bleeding Thread-Index: AcdUwcyUG0hCd5jzSTGJ+4AgiHSRFwAPHRGg References: From: "Zavatson, Christopher J \(US SSA\)" X-Original-To: "Lancair Mailing List" X-OriginalArrivalTime: 20 Feb 2007 19:37:07.0521 (UTC) FILETIME=[819FF310:01C75526] John, Comments/replies/questions are inserted:=20 .....He does not include Carbinge in his test..... Send me a small sample and I'll add it. Several years ago, while visiting a Legacy project, I did have chance to examine a short section of Carbinge. I noted movement much like a standard MS hinge so I didn't pursue it further. It is my understanding that the diameter of the hinge pin was changed at some point. I do not know which vintage I had in my hands. =20 .....The fact is there is no play discernable in Carbinge when pulled back and forth as it appears he did in the video..... What is the ID of the Nylon and OD of the pin you are currently using? That is what really determines the movement one sees in the video. The Carbinge section I saw had noticeable play(~4 years ago). Something must be different in newer hinges since you report no discernable play. Again, if you send me a short section, I'll add it to the video clip. If a photo is worth a thousand words, a video has got to be worth ten times that. =20 =20 .....From the video it would be instructive to know how long the segment of hinge was in each sample and how much pressure was applied..... The sections are short, four or five segment pairs long (I'd have to check to make sure), and the load very light, about 5 lbs. This was not a stress test in any way. It was just meant to visually record the relative movement. The sections were clamped between 1/4" steel plates to keep the hinge sections flat. Ironically, if the hinge mounting surface is not flat and true, less play will be observed in a loose hinge while stiffness will be noted in a close tolerance hinge. =20 =20 .....You also stated that ".....Teflon and Nylon are very soft and will flow and deform if subjected to high loads.".... This is based on the low modulus of both Teflon and Nylon, Teflon being the softer of the two. This makes tight tolerances between the pin OD and the Nylon or Teflon insert ID all the more critical. If the fit is very good, you'll have decent load carrying capability. If there is any difference in diameters, the local stresses will deform the material until the load is carried. This is really no different than with any other material except that plastic materials are handicapped by lower physical properties. Since the Carbinge fully captures the Nylon OD, the only interface of concern is with the pin. Starting off with a larger pin OD also helps. BTW, what type Nylon are you using? ... it does not deform, even when subjected to over a million cycles... Deformation will depend on the load rather the number of cycles. What load was applied during the cycle test? =20 Worth noting is that many hinges are not loaded evenly across the span. The 'outback' flaps are good examples of this. Actuation occurs outside the first hinge. The highest stress will be on the most inboard hinge element of the inboard hinge. This can really skew the lb/in number that should be applied during testing. ...I tend to agree with you that Teflon does flow significantly when point loads are applied, but I have not=20 tested that theory myself... Again, this is very much load dependent. In our case, the diametrical tolerance of the pin to hinge interface is a big driver in determining the stress on the bearing material, be it metal, Nylon, or Teflon. The genesis of my investigation into alternative hinge options stemmed from the desire to minimize play in trim tabs i.e. unbalanced controls surfaces. During this same period I was also trying out the Teflon option in ailerons and flaps. After the Teflon failed in my flap hinges, the reaming solution that worked well in the trim tab was applied to ailerons and flaps. (I have the MKII tail) They have held up perfectly over the years and now have hundreds of hours on them. The relationship between play and wear has become quite clear. I clean and lube them, along with all the rod end and spherical bearings, once a year. =20 =20 Regards, Chris Zavatson N91CZ 360std www.N91CZ.com