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When I was in the early stages of the amplifier project I'm working on, I had tentatively planned on using all stainless steel fasteners and hardware when the time came to start the construction. I chose Aluminum for the chassis material for a number of reasons. But namely because it's easier to mill and I like the finish over steel.
Anyway, when I started researching fastener types and material for the project, I realized that using stainless steel(or other materials) could present potentially serious problems under certain conditions and I wanted to get some feedback on this.
Here is a simple and quick rundown on what I'm talking about for those who may need it. This is a PDF published by Fastenal Engineering & Design Support:
Article - Corrosion.pdf
One point to note is, that a galvanic reaction will only occur in the presence of an electrolyte. Equipment which will always be maintained and stored in a controlled environment (such as indoors in a residential home), probably won't be affected. So, this will probably never come up in the toaster forum.
But, we build amplifiers for all kinds of musicians. Musicians who live near the coast and high humidity environments, or in cold weather climates where large quantities of salt is used to control on roads and walkways. I've seen amplifiers which have been through floods, fires, or worse - Warp Tour.
Unfortunately, the only way of protecting the metals from galvanic corrosion is electrical isolation. Not an option for connecting the chassis to earth! This is really the point which is of most concern to me. This is where oxide buildup on steel would create an insulating layer of resistance, or the corrosion of aluminum (which is the more anodic metal), would also degrade the contact area we rely on in event of a fault.
So, what's the solution for those of us who use aluminum chassis? Even though stainless steel looks pretty and offers great resistance to corrosion under ideal conditions, Zinc plated steel is probably the safer bet for all conditions. Actually, deposited aluminum coating on steel would probably be the best solution.
Maybe I'm being a little obsessive or paranoid, but if UL 60065 Audio•Video Safety Guidlines, state that the resistance from the earthing conductor terminal to the chassis cannot exceed 0.1 ohms, I can live with being overly cautious.
But, I would love to hear from you guys who have serviced amps for years. Have you seen this come up as an issue? Or is there any long term data on this? (Am I overthinking it?)
Anyway, when I started researching fastener types and material for the project, I realized that using stainless steel(or other materials) could present potentially serious problems under certain conditions and I wanted to get some feedback on this.
Here is a simple and quick rundown on what I'm talking about for those who may need it. This is a PDF published by Fastenal Engineering & Design Support:
Article - Corrosion.pdf
One point to note is, that a galvanic reaction will only occur in the presence of an electrolyte. Equipment which will always be maintained and stored in a controlled environment (such as indoors in a residential home), probably won't be affected. So, this will probably never come up in the toaster forum.
But, we build amplifiers for all kinds of musicians. Musicians who live near the coast and high humidity environments, or in cold weather climates where large quantities of salt is used to control on roads and walkways. I've seen amplifiers which have been through floods, fires, or worse - Warp Tour.
Unfortunately, the only way of protecting the metals from galvanic corrosion is electrical isolation. Not an option for connecting the chassis to earth! This is really the point which is of most concern to me. This is where oxide buildup on steel would create an insulating layer of resistance, or the corrosion of aluminum (which is the more anodic metal), would also degrade the contact area we rely on in event of a fault.
So, what's the solution for those of us who use aluminum chassis? Even though stainless steel looks pretty and offers great resistance to corrosion under ideal conditions, Zinc plated steel is probably the safer bet for all conditions. Actually, deposited aluminum coating on steel would probably be the best solution.
Maybe I'm being a little obsessive or paranoid, but if UL 60065 Audio•Video Safety Guidlines, state that the resistance from the earthing conductor terminal to the chassis cannot exceed 0.1 ohms, I can live with being overly cautious.
But, I would love to hear from you guys who have serviced amps for years. Have you seen this come up as an issue? Or is there any long term data on this? (Am I overthinking it?)
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