Any input good bad idea!
bit expensive and as its done hot there is a chance of distorting the chassis
Don't you have to drill a hole in all the tubes too ? or is that just BZP plating........to let cleaning acid out ?
Jon,
Certainly do. That's why it's not a good idea. Also, you can buckle it if you have welded in steel floors (once saw a Land Rover bulkhead that had
been galvanised. Bugger had warped through 90 degrees).
It also adds a fair bit to the weight too....
thought so, we have a fair bit of plating done at work, but its all BZP, no holes = mess. funny how my engine mounts found there way into the tank ???
Ok thanks. Best not try that then!
quote:
funny how my engine mounts found there way into the tank ???
It was suggested to me by a local company specializing in restoring old classics that the best result would be to Zinc Phosphate the chassis and then powdercoat it. Quite what zinc phosphate is I have no idea but my chassis looks pretty damn good!
Sounds good but how much does the zinc and powder coat cost ruffly?
quote:
It was suggested to me by a local company specializing in restoring old classics that the best result would be to Zinc Phosphate the chassis and then powdercoat it.
Guys,
I have worked with several powder coaters over the last 20 years, including some guys who, at the time, had the contract for TVR, and from their
combined wisdom I would say that phosphating is a fairly standard pre-treatment for higher quality/more demanding powder coating work. I would expect
any chassis or any outdoors components to be phosphated prior to coating and that many good coaters would not even not mention doing it, because it is
such normal procedure. I think it is basically a kind of etching primer.
It certainly isn't a waste of time, and adds little extra to the cost.
Hope that clarfies things
Guys,
I just got this off the web, if you're interested:
"What is phosphating and why do I need it?
The generic term "phosphating" is a process where an acid attacks the metal of the work piece and re-deposits a material that is a combination of the
metal substrate (and other metals - like zinc) along with phosphate. This process creates a surface that is tightly adherent to the base metal, has
more surface area, provides improved corrosion inhibition, and helps the powder coating stick better. It provides a good coating base so the finished
part has increased usable life."