In addition to the great comments by SW, RB59, tbuelna, 3DD...
Hope this makes sense...
1. Aerospace fastener basics/practices.
Due to cyclic physical/thermal loading, vibration and the general environment EVERY fastener installed in an aircraft MUST be ‘locked in place’... to ensure that it remains in-place to ‘do its job’ reliably for indefinitely.
Solid, blind rivets are deformed.
Blind bolts are deformed or have locking collars
Lock-bolts have swaged collars
EVERY male threaded fastener [bolts, shoulder-bolts, screws, Hi-Lok style threaded pin-fasteners, etc] must have a locking device to secure it under all circumstances....
Self-locking nuts/collars/inserts [metal/plastic, all-metal, distorted, post-installed crimped], castellated nuts [plain or self-locking] with cotter-pins or lockwire. Plain-nuts may be used with locking washers [lock-tab preferred; split locking or deformed-star NOT desirable] or stacked-jam-nuts; or the nuts must have corner-drilled-holes/lockwired; or must have a locking compound/adhesive applied during installation. CAUTION: use of locking compounds is only recommended as a back-up for parts with self-locking features [more later].
Notes: Certain bolts/screws may have self-locking ‘plastic plug-patches’ inserted/embedded-into or molded-onto the threads that effectively lock the threads into plain nuts and inserts.
Pins, with our without heads [solid shank, spiral-or c-spring-pins, etc] have various method of restraint... including cotter-pinning holes, shank-expansion, mechanical capture/restraint], crimped-ends, etc-etc.
2. JC... In-line with Your question.
ANY threaded fastener [duhhh] in any application where it is in a critical with low/no installed torque [to eliminate clamp-up forces]... or that is subject to rotational/torque forces... MUST have an external mechanical locking device for physical restraint and visual inspection. This includes bolts in lug joints and all installations where a pin or bolt is used in a pivoting application, such as moving control shafts, idler/bellcranks, clevis’s, hinges, etc-etc... These mechanical locking devices are traditionally castellated nuts with cotter-pins or lock-wire... or bolts/screws with drilled-holes for lockwire to adjacent structure [hole] or to adjacent bolts/screws in the cluster or pattern... or tab-locking washers... or mechanical crimping-deformation [physically impossible to separate parts]... etc. There are a many other unique/exotic ways to lock these parts together. IF cotter-pins or lockwire are to be used then the locked parts MUST have a hole drilled in the threads [bolt/screw] or castellation [nut]; or thru the heads or corners of the hex’s; or use tabbed washers; etc. REALLY large diameter parts may be locked after torqueing using other methods that are similar to cotter-pinning… but thru drilled-holes.
The selection of fasteners with integral locking... or multi-piece mechanical locking features... is a design decision that is important from the functional perspective of reliability.... and assembly, maintenance, parts procurement, etc.
CAUTION.
Critical permanent structural assembly may only require [1] method of locking... but that method MUST BY DEFINITION... be inspectable and verifiable. Self-locking nuts have a ‘sneaky’ way of loosening undetected under extreme conditions. Sooooo... Critical structural and mechanical fastener installations that rely on locking nuts [or nutplates] should always have marking compound [a brightly colored thickened paint or brittle sealant like material] applied across the exposed fastener elements and onto the structure in one smooth/long bead... after torque verification. An alternate to this method uses wet-sealant [or thread-locking compound] ‘squeeze-out’ that is filleted around the fastener head or nut/washer. IF/when the installation experiences loosening torque [any source], then visual inspection will be able to identify this movement by the ‘sheared/flaked/misaligned-bead or fillet’. NOTE: in my experience, parts always loosen... never tighten [normal service].
NOTE. Hi-Lok collars by definition are 'inspectable' when the collar drive-nut shears-off. I have actually seen installs where they were torqued... buty never broken... gag-me.
NOTE. JC... The USAF recently mandated safetying of all fluid fittings and ‘B’ nuts with lockwire or other devices... where traditionally these parts NEVER had the lockwire holes to do this. Caught us flat footed, since this, in my experience, is a rare to never occurrence. We [our group’s opinion] that the extremely high working pressures of new systems and/or the inexperience of mechanics or some recent mishaps with under/over-torqued parts loosening may be driving this requirement. There could also be something to do with O2 piping system security that I have become aware of... and possible electrical bonding/grounding thru piping systems for high voltage lightning and static dissipation. Uhhhhhh... engineering nightmare for parts substitution on antique jets... and few conforming 'stock parts'.
3.
Safetying practices... [not including my company’s design or installation standards]... I use/refer to the most...
FAA AC43.13-1 ACCEPTABLE METHODS, TECHNIQUES, AND PRACTICES - AIRCRAFT INSPECTION AND REPAIR
NASM33540 SAFETY WIRING, SAFETY CABLING, COTTER PINNING, GENERAL PRACTICES FOR
SAE AS567 SAFETY CABLE, SAFETY WIRE, KEY WASHERS, AND COTTER PINS FOR PROPULSION SYSTEMS, GENERAL PRACTICES FOR USE OF
SAE AS1043 SAFETY WIRE HOLES, HEX, FITTING, LOCATION OF, DESIGN STANDARD
FAA-H-8083-30 AVIATION MAINTENANCE TECHNICIAN HANDBOOK – GENERAL
FAA-H-8083-31 V1 AVIATION MAINTENANCE TECHNICIAN HANDBOOK — AIRFRAME
NASA RP-1228 FASTENER DESIGN MANUAL
USAF T.O. 1-1A-8 ENGINEERING MANUAL SERIES - AIRCRAFT AND MISSILE REPAIR - STRUCTURAL HARDWARE
USA TM 1-1500-204-23-1 AVIATION UNIT MAINTENANCE (AVUM) AND AVIATION INTERMEDIATE MAINTENANCE (AVIM) MANUAL FOR GENERAL AIRCRAFT MAINTENANCE (GENERAL MAINTENANCE AND PRACTICES)
It is late. I am tired and goofy. Good Night.
Next day edit… there are elements in this discussion that relate to my 'somewhat obscure' response in thread
RE 'screw loosening'
Regards, Wil Taylor
o Trust - But Verify!
o We believe to be true what we prefer to be true. [Unknown]
o For those who believe, no proof is required; for those who cannot believe, no proof is possible. [variation,Stuart Chase]
o Unfortunately, in science what You 'believe' is irrelevant. ["Orion", Homebuiltairplanes.com forum]
