Also interested about the top material. Is it nickel? Also where did you source your 0.25mm copper from? Can't find anything reasonably priced.You have 0.25mm copper to the cells. What is the top layer, material and thickness?
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Also interested about the top material. Is it nickel? Also where did you source your 0.25mm copper from? Can't find anything reasonably priced.You have 0.25mm copper to the cells. What is the top layer, material and thickness?
Thanks for the reply. I was wondering if it would be possible to make Wellgo-style plates myself by cutting 0.3 mm copper sheet with square cutouts for the cells, and then spot welding 0.15 mm pure nickel strips onto the square holes. This would make welding to the cells easier. The only part I’m unsure about is whether a kWeld can reliably weld 0.15 mm pure nickel to a 0.3 mm copper sheet.The top material is 0.10mm stainless steel. You want something that doesn't conduct electricity very well, nickel is not a good choice. I bought it on aliexpress in rolls 100 or 200mm wide.
It is really pushing the limit on the k-weld though, I need to have gloves to be able to weld more than 5 spots in a row because the probes get too hot to hold. Then I can do 10 spots.
That is probably why I have problems getting consistant welds, the resistance goes up in the wires etc.
Thicker wires and a fan cooling the internals on the k-weld might help.
Just tried spot welding 0.10mm Ni to 0.30mm Cu with my Awithz UF20 on gear 95. It did the weld fine but blew through both sides. Next I tried 0.15mm Ni to 0.30mm Cu but reduced power to gear 60 and it made beautiful welds. Try your KWeld. I think you will be pleasantly surprised. The challenge will be machining square holes in Cu if you do not have access to a CNC Laser Cutter.Thanks for the reply. I was wondering if it would be possible to make Wellgo-style plates myself by cutting 0.3 mm copper sheet with square cutouts for the cells, and then spot welding 0.15 mm pure nickel strips onto the square holes. This would make welding to the cells easier. The only part I’m unsure about is whether a kWeld can reliably weld 0.15 mm pure nickel to a 0.3 mm copper sheet.
That’s great information, thank you for testing that. I really appreciate it. I’ll order some copper sheet and nickel strip and try it myself with the kWeld.Just tried spot welding 0.10mm Ni to 0.30mm Cu with my Awithz UF20 on gear 95. It did the weld fine but blew through both sides. Next I tried 0.15mm Ni to 0.30mm Cu but reduced power to gear 60 and it made beautiful welds. Try your KWeld. I think you will be pleasantly surprised. The challenge will be machining square holes in Cu if you do not have access to a CNC Laser Cutter.
I think your Kweld is more powerful than my Awithz UF20B and may handle thicker material. I tried 0.15 Ni to 1.0mm Cu on gear 95 and it did not make good welds. I have a feeling mine will do 0.4 or even 0.5mm Cu but I don't have any to try.That’s great information, thank you for testing that. I really appreciate it. I’ll order some copper sheet and nickel strip and try it myself with the kWeld.
Thank you for trying out! I'll try to figure something out for the holes but if nothing works, I have contacts to a local shop that could do it!I think your Kweld is more powerful than my Awithz UF20B and may handle thicker material. I tried 0.15 Ni to 1.0mm Cu on gear 95 and it did not make good welds. I have a feeling mine will do 0.4 or even 0.5mm Cu but I don't have any to try.
If you do your layout with a sharp awl and straightedge, then a Dremel with cutoff wheels to cut out the squares will make the job DIY feasible. A bit of work but saves you a few hundred bucks from Wellgo.
edit: Just tried cutting a 11mm square hole in 0.3mm Cu sheet with a fiber reinforced cutoff wheel on a Dremel. The cut went slow, lot's of dust (I was wearing a covid mask), copper got hot, I stopped before cutting through the Cu. Didn't want to continue the experiment. Too messy, too much work on just one hole. Can't imagine having to do hundreds.
Find someone local with a CNC laser cutter see how much they charge.
Hole need not be square. Drilling a clean hole in copper sheet is tricky. Maybe a Brad point bit?
I was curios enough about Brad Point drill bits on copper I bought 2 of these. It works (0.3mm) and actually cuts instead of tearing and mangling the copper!Thank you for trying out! I'll try to figure something out for the holes but if nothing works, I have contacts to a local shop that could do it!




Nice work GL with the race! Will be interesting how your DIY busbars perform compared to the Wellgo's.Everything was glued together late last night, and tomorrow I'll be racing..








