Flux may or may not be easy to remove depending on what flux and how it is used. It is common to use White flux or Black flux for Ag, Cu based alloys if you mean AWS Bag alloys. Flux traps oxygen and can get used up. If it gets used up it is very difficult to remove. If you use enough and don’t use it all up it removes easily with warm water. Several years ago our US Handy & Harman rep showed us some flux remover. We tried it and it was just o.k. but we didn’t use it because we like our technology better.
I better confess that I have a prejudice against Lucas Milhaupt, the US Handy & Harman; because of the customer service rep we are assigned. My staff thinks he is rude and it typically takes him several days to reply to a RFQ. We use Prince & Izant to purchase alloy that comes from Handy & Harman because the prices and the service are much better from Prince & Izant.
Try Lucas Milhaupt for tech support. I really like and respect the tech support guys.
I am a surface prep guy and our specialty is hard to braze materials for tools. Our standard is to develop technologies for advanced material that can be used by a guy in a sawmill with an oxy-acetylene torch. We use oven, torch and induction. We have another division that does vacuum brazing. That is where we do electronics and exotic materials.
If I understand what you are talking about the type of steel and even the individual batch could make a difference. The materials will grow and shrink during brazing. They will grow and shrink uniformly and evenly because of the inherent properties. They will also twist and bend and warp depending on how they have been treating previously.
If you are worried about corrosion then the atmosphere used in atmosphere brazing can have a huge effect. Hydrogen atmosphere is common. A hydrogen furnace can seriously weaken tungsten carbide because the H reacts with the C and creates the equivalent of an Eta phase. (In WC the C is packed in the lattice of the W) This can weaken the carbide by as much as 40%.
There are a great number of finishing technologies to deal with corrosion. If you look at my patents you will see that we use a chemical or electro-chemical approach to surface preparation. Were I use I would worry more about getting a good assembly than corrosion. There are many simple passivation techniques that might apply.
What you are asking for here is theory but what you want is finished parts. I have given you the answers I think most likely to be correct however I could reverse my position and argue the other side given specific circumstances.
I would recommend that you specify materials and do a drawing then send it out for quotes. Don’t worry about getting it perfect now. Good suppliers will be happy to help you with the design rather than try to work with something only theoretically possible. Try a couple reputable brazing houses. Also try finishing.com for corrosion issues. They are plating but also general metal preparation. Activation of metal is a big deal in plating thus so is its opposite.
Tom
Thomas J. Walz
Carbide Processors, Inc.
