I figured there would be some threads, but my search turned up nothing related. Waffled on which forum it belonged in (Is it general or just for DIYers?) so please feel free to move if more appropriate.
I have a (Florida) 1995 NSX-T in Canada. It won't leave the garage until all remnants of road salt are long gone. Considering how much aluminum is used on the NSX, I figured rust/corrosion would be a limited issue, but there are lots of steel parts from striker latches to brackets for electrical/fuses to the rear sway bar & holder. Most look galvanized to me? Many of them are starting to show corrosion. I have 2 questions:
Galvanic Corrosion (brackets etc.):
Considering aluminum is more prone to galvanic corrosion than steel, (applications use aluminum sacrificial anodes to protect steel) I would expect the aluminum to corrode sacrificially, sparing the steel bolts/brackets etc. But many steel parts seem to be starting to corrode & the aluminum not, thankfully. When some bolts were removed, there were traces of what looked like white aluminum oxide powder, which I assume was slight corrosion, but could be dried up lock-tite or similar? Some steel parts are partially rubber coated and it’s splitting. Any suggestions for restoring these steel and/or rubber-coated steel parts other than replacing them? Many aren’t that expensive, but it will add up.
I tried electrolysis on some discarded parts. It takes off the rust, but still leaves black marks (oxide where the zinc is now gone?). I applied Krown rust inhibitor to the parts. While they look better than the surface rust, they still look substandard. I wanted to see about powder-coating them, but our local powder-coaters are on hold due to Covid.
So:
1. Just tape up the brackets and Plastidip them myself?
2. Wait & powder coat?
3. Stop being so vain?
Dacro Bolts:
I've noticed corrosion on quite a few bolts. The owner's manual describes "Dacro" bolts to reduce corrosion in many locations denoted by a star, but I don't really see those stars in my owner's manual in many places where a Dacro bolt came out, based on the flat grey color & mint thread coating. Dacro coating is a “ceramic” of sorts. Was the purpose to electrically isolate and thus reduce galvanic corrosion between the steel and aluminum parts or between the bolts and the aluminum, or to reduce the chance for the bolts to seize? These bolts measure very high electrical resistance. Are Dacro bolts even available any more now that Dacro coating has been restricted by the EU? Replacement bolts from my local Honda dealer seem to be regular steel, not Dacro.
I'd like to change some of these rusty bolts to titanium, which won't rust in the future. Titanium is a poor conductor, but it's not as good an isolator as Dacro?
So the question is, what should I do?
1. Brush the surface corrosion off the old bolts, spray with Krown rust protector (oil), and reuse? (a bit unsightly)
2. Replace the bolts with steel ones from the local dealer (prone to rust? But is it better to have the bolt rust than something else?)
3. Replace the bolts with JDM parts from amayama (many seem to be out of production or take a long time to source there too, not sure if amayama bolts will be Dacro either)
4. Replace them with titanium which will not rust but could allow other corrosion? (more expensive & increased conductivity)
I have a (Florida) 1995 NSX-T in Canada. It won't leave the garage until all remnants of road salt are long gone. Considering how much aluminum is used on the NSX, I figured rust/corrosion would be a limited issue, but there are lots of steel parts from striker latches to brackets for electrical/fuses to the rear sway bar & holder. Most look galvanized to me? Many of them are starting to show corrosion. I have 2 questions:
Galvanic Corrosion (brackets etc.):
Considering aluminum is more prone to galvanic corrosion than steel, (applications use aluminum sacrificial anodes to protect steel) I would expect the aluminum to corrode sacrificially, sparing the steel bolts/brackets etc. But many steel parts seem to be starting to corrode & the aluminum not, thankfully. When some bolts were removed, there were traces of what looked like white aluminum oxide powder, which I assume was slight corrosion, but could be dried up lock-tite or similar? Some steel parts are partially rubber coated and it’s splitting. Any suggestions for restoring these steel and/or rubber-coated steel parts other than replacing them? Many aren’t that expensive, but it will add up.
I tried electrolysis on some discarded parts. It takes off the rust, but still leaves black marks (oxide where the zinc is now gone?). I applied Krown rust inhibitor to the parts. While they look better than the surface rust, they still look substandard. I wanted to see about powder-coating them, but our local powder-coaters are on hold due to Covid.
So:
1. Just tape up the brackets and Plastidip them myself?
2. Wait & powder coat?
3. Stop being so vain?
Dacro Bolts:
I've noticed corrosion on quite a few bolts. The owner's manual describes "Dacro" bolts to reduce corrosion in many locations denoted by a star, but I don't really see those stars in my owner's manual in many places where a Dacro bolt came out, based on the flat grey color & mint thread coating. Dacro coating is a “ceramic” of sorts. Was the purpose to electrically isolate and thus reduce galvanic corrosion between the steel and aluminum parts or between the bolts and the aluminum, or to reduce the chance for the bolts to seize? These bolts measure very high electrical resistance. Are Dacro bolts even available any more now that Dacro coating has been restricted by the EU? Replacement bolts from my local Honda dealer seem to be regular steel, not Dacro.
I'd like to change some of these rusty bolts to titanium, which won't rust in the future. Titanium is a poor conductor, but it's not as good an isolator as Dacro?
So the question is, what should I do?
1. Brush the surface corrosion off the old bolts, spray with Krown rust protector (oil), and reuse? (a bit unsightly)
2. Replace the bolts with steel ones from the local dealer (prone to rust? But is it better to have the bolt rust than something else?)
3. Replace the bolts with JDM parts from amayama (many seem to be out of production or take a long time to source there too, not sure if amayama bolts will be Dacro either)
4. Replace them with titanium which will not rust but could allow other corrosion? (more expensive & increased conductivity)
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