OK... guys... there are actually [2] ways to approach this situation. Both will work in either pathway. BUT... sequence and accessibility are everything...as well as Rule #1.
Rule #1 with process coatings... NEVER have any parts attached that can trap process fluids fay-surface... and beware... process solutions compatible with aluminum WILL damage other alloys. Nutplates, bushes, pins, washers/bolts etc CANNOT experience process solutions for this reason. Another side of this is that process solutions will be cross-contaminated by the chemistry [alloy, coatings, etc] of the non-compatible parts... worst would be alloys/finishes that experience oxidation/erosion, IE: rust, zinc, cadmium, silver, etc will degrade process bath chemistries.... and processors will usually say 'ohhellno'.
SO... how can either of the pathways mentioned be taken and be successful... without violating rule #1??
SN... YOUR POSITION is typical for conventional production process for bath Chromate Conversion Coating [CCC, MIL-DTL-5541 Class 1A]... something like a pressurized tube Assy... would be to: clean in preparation for welding, accomplish Assy-welding, NDI, proof-test, re-work A/R, clean... then apply the CCC in a bath for the bare-weld [typically to exterior surfaces, only - mask-off interior]. Many of these same tube Assys would also receive primer after CCC. OK... NOW is the appropriate time to install all attaching/embedded parts.
OTHERS... so how could this be done 'otherwise'... somewhat like the 'other crowd' is suggesting... it CANNOT BE DONE EXACTLY as they describe... it WILL violate Rule #1. But there is a variation to consider... that I've used for parts-replacement-repairs... not ideal/straightforward.
Trim and 100% clean individual parts for welding. Mask-off interior 100% and exterior surface areas within +4.0-inches of the weld heat affect zones. Apply CCC [and epoxy primer] to exposed surfaces away from the weld-zone... and install attached/imbedded parts to the areas that have been CCC/primed, ONLY. Unmask the areas to be welded, fixture the parts, weld-the-parts, NDI, proof-test, rework A/R, final clean bare aluminum areas/welds... then brush-apply CCC [no-rinse is OK] and apply primer to the bare/welded areas. Ta-Da done... the right way... but definitely NOT the economical/production-friendly way.
BTW... Welding 5052-O to 6061-T4 is the preferred combination. Be cautious when welding 6061-T6 to anything... it can can develop hot-short cracks... and besides... 5052-O and 6061-T4 have relatively similar strength/toughness/weld durability. Also the weld-filler should be compatible to both... not necessarily heat treatable. On my jet, common ER4043 is preferred for this material combination... with a couple of other ER5xxx alloys allowed for specific purposes.
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Tug... I am curious... WHY 5052-xxx for hull alloy? What size vessels are you used to assembling... I assumed You worked on larger sea-going vessels? Here is WHY I am asking...
ASTM B928 Standard Specification for High Magnesium Aluminum-Alloy Sheet and Plate for Marine Service specifies 5083, 5086 and 5456 for sea-water service. Alloys 5052 and 6061 are definitely NOT on the spec list.
HOWEVER... I checked AWS D3.1 Guide for Aluminum Hull Welding... and yes it appears that... 5052, 5083, 5086, 5454, and 5456... are the common 5xxx plate-hull alloys... although it states that 5052 is used typically for 'small pleasure craft' due to lowest strength. OH and 6061, 6063, 6151, 6356 and A356 are the commonly used heat treatable aluminums compatible with 5xxx alloys for internal details/stiffening/strengthening... exactly as You describe.
Gotta crawl back-to-work.
Extra credit for knowing what 'ER' stands for when describing weld filler alloys... IE: ER4043
Regards, Wil Taylor
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