Still would you want to put maybe three times as much gold on some areas of the bangles as on other areas, or wouldn't it be better to plate fewer at a time and rack them for consistent thickness? Good luck. If you are plating micron or thinner gold, though, and this is jewelry rather than electronics, I think your plan can probably work without overloading the solution or the anodes. It seems like about 9 would fit that way. I can't picture getting 32 big bangles into a 30*34 cm plane "the thin way", though, where the anodes are looking at the diameter of the bangles (seeing 32 zeros or letter O's) - which is what you would want for heavy plating. So I would not change it, and I would consider the anode area to be 3136 square cm. Your description of the anode arrangement sounds conventional and correct. with 4 anodes, each side 2 anodes, each one 14*28 cm? mary maĪ. Now, what is the necessary surface of anodes? Is it O.K. ![]() The calculated maximum surface for electroplating in one time is for 32 big bangles, approximately 2500 square cm. I have bought a 30 liter tank for electroplating of precious metals. Further, you'd surely have to count the area of the sides if the baskets were very widely spaced, and to say you won't count them if tightly packed would lead to the somewhat silly conclusion that adding anode baskets might not add anode surface area. My reasoning for using sides and back as well as front is that if I were using round stick anodes I'd use their whole surface area, and I don't feel the area of anodes in a basket can be considered less than the area of sticks. The 'door' to the sponge and to the baseball, through which all the current and ions must pass, is a 3" diameter sphere. ![]() Is it the same, or a thousand times higher? My answer is it's the same because they have the same zone of highest current density or flux or ion transport. Second, how does the surface area of a baseball-sized sponge compare to the surface area of an actual baseball. ![]() Anode to cathode ratio is just a quick and rough empirical guideline, not a deep and precise science. If you were able to do some deep study and determine, for example, a given extra percentage surface area, it would immediately change anyway as the anodes dissolved. So the authors surely were thinking in terms of easily measured things like basket area. If you do a patient search you'll find other opinions here, but here is my reasoning -įirst, when articles are written that mention anode to cathode ratio, they are quick guidelines, not deep studies involving surface topology and diffusion dynamics. For example, I'd consider the area of a 4" x 2" x 12" deep anode basket to be 1 square foot. I use the whole surface area (sides and rear as well as front) of the basket.
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