Page 18-03 A-909 counterweight Priming?

Being of the school of minimalist primers, I decided not to prime the counterweight when I found it's made of stainless steel. Stainless steel wont corrode, right? Right?

Hi frog, IMO all of the aluminum around the counterweight will be rotten (even the primed aluminum) before the SS corrodes unless there is a dissimilar metal corrosion problem.It will be interesting to see what the pro's say.

Private message sent to Wingedfrog.

-DaveLS

Dave12 said:

Hi frog, IMO all of the aluminum around the counterweight will be rotten (even the primed aluminum) before the SS corrodes unless there is a dissimilar metal corrosion problem.It will be interesting to see what the pro's say.

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From my college years (way back into last century ) I remember that putting two different metals into contact can create corrosion via voltaic coupling. It all depends of the metals - it's why I would like, indeed, to hear what the pros have to say.

WingedFrog said:

From my college years (way back into last century ) I remember that putting two different metals into contact can create corrosion via voltaic coupling. It all depends of the metals - it's why I would like, indeed, to hear what the pros have to say.

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That's why I primed the rib flanges that were in contact with the tube as well as the tube itself in the front area where it touches the skin.
But then I'm one of those prime-it-all guys ...

In the marine world, aluminum in contact with stainless steel inevitably leads to dissimilar-metal corrosion. But almost anything between them will help prevent that.

David Paule said:

In the marine world, aluminum in contact with stainless steel inevitably leads to dissimilar-metal corrosion. But almost anything between them will help prevent that.

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That's what I was afraid to hear! I think I'm going to spray the top of the counterweight where the skin makes contact with NAPA 7220, it will make me feel better if I have to ditch the plane in the ocean

As a confirmation of what David said:

Galvanic Table

The following galvanic table lists metals in the order of their relative activity in seawater environment. The list begins with the more active (anodic) metal and proceeds down the to the least active (cathodic) metal of the galvanic series. A "galvanic series" applies to a particular electrolyte solution, hence for each specific solution which is expected to be encountered for actual use, a different order or series will ensue. In a galvanic couple, the metal higher in the series (or the smaller) represents the anode, and will corrode preferentially in the environment. Listed below is the latest galvanic table from MIL-STD-889 where the materials have been numbered for discussion of characteristics. However, for any combination of dissimilar metals, the metal with the lower number will act as an anode and will corrode preferentially. The table is the galvanic series of metals in sea water from Army Missile Command Report RS-TR-67-11, "Practical Galvanic Series." (reference)

Active (Anodic)

1. Magnesium
2. Mg alloy AZ-31B
3. Mg alloy HK-31A
4. Zinc (hot-dip, die cast, or plated)
5. Beryllium (hot pressed)
6. Al 7072 clad on 7075
7. Al 2014-T3
8. Al 1160-H14
9. Al 7079-T6
10. Cadmium (plated)
11. Uranium
12. Al 218 (die cast)
13. Al 5052-0
14. Al 5052-H12
15. Al 5456-0, H353
16. Al 5052-H32
17. Al 1100-0
18. Al 3003-H25
19. Al 6061-T6
20. Al A360 (die cast)
21. Al 7075-T6
22. Al 6061-0
23. Indium
24. Al 2014-0
25. Al 2024-T4
26. Al 5052-H16
27. Tin (plated)
28. Stainless steel 430 (active)
29. Lead
30. Steel 1010
31. Iron (cast)
32. Stainless steel 410 (active)
33. Copper (plated, cast, or wrought)
34. Nickel (plated)
35. Chromium (Plated)
36. Tantalum
37. AM350 (active)
38. Stainless steel 310 (active)
39. Stainless steel 301 (active)
40. Stainless steel 304 (active)
41. Stainless steel 430 (active)
42. Stainless steel 410 (active)
43. Stainless steel 17-7PH (active)
44. Tungsten
45. Niobium (columbium) 1% Zr
46. Brass, Yellow, 268
47. Uranium 8% Mo
48. Brass, Naval, 464
49. Yellow Brass
50. Muntz Metal 280
51. Brass (plated)
52. Nickel-silver (18% Ni)
53. Stainless steel 316L (active)
54. Bronze 220
55. Copper 110
56. Red Brass
57. Stainless steel 347 (active)
58. Molybdenum, Commercial pure
59. Copper-nickel 715
60. Admiralty brass
61. Stainless steel 202 (active)
62. Bronze, Phosphor 534 (B-1)
63. Monel 400
64. Stainless steel 201 (active)
65. Carpenter 20 (active)
66. Stainless steel 321 (active)
67. Stainless steel 316 (active)
68. Stainless steel 309 (active)
69. Stainless steel 17-7PH (passive)
70. Silicone Bronze 655
71. Stainless steel 304 (passive)
72. Stainless steel 301 (passive)
73. Stainless steel 321 (passive)
74. Stainless steel 201 (passive)
75. Stainless steel 286 (passive)
76. Stainless steel 316L (passive)
77. AM355 (active)
78. Stainless steel 202 (passive)
79. Carpenter 20 (passive)
80. AM355 (passive)
81. A286 (passive)
82. Titanium 5A1, 2.5 Sn
83. Titanium 13V, 11Cr, 3Al (annealed)
84. Titanium 6Al, 4V (solution treated and aged)
85. Titanium 6Al, 4V (anneal)
86. Titanium 8Mn
87. Titanium 13V, 11Cr 3Al (solution heat treated and aged)
88. Titanium 75A
89. AM350 (passive)
90. Silver
91. Gold
92. Graphite

End - Noble (Less Active, Cathodic)