When mixing the Part 1 formula, here are a few notes:
It would be easier to use barium titanate instead of lead zirconate titanate (PZT). You can get barium titanate on ebay in small quantities, but it’s much more difficult to source PZT which contains lead. Barium titanate is not as powerful as PZT but if you use a little more in the mix, it’s still quite good.
Shungite powder is almost pure carbon. You can source it from Russia via eBay, The seller is trustworthy, and I have dealt with them 3 times with no difficlties. But if you don’t want to order from Russia, you can use Ketjen carbon black with similar results. You can get that locally.
If you’re worried about playing around with graphene nanoparticles, you can also get graphene as a suspension (liquid). There’s no possibility of inhaling it. It works the same when mixed with PVA glue.
It’s also a good idea to mix some mica into the Part 1 mix. Synthetic mica and natural mica both work very well, and I use a bit of each sometimes.
You can isolate various ingredients into layers, which can increase the power of the final product. For example, if you mix PVA, graphene and (piezoelctric material of your choice), it works extremely well as a coating directly on a crystal layer (such as silicon carbide).
Finally, you can add various fine powdered crystal sands to the Part 1 or Part 2 mix. I use silicon carbide and aluminum oxide because they are very effective and very cheap ways to buy powdered crystal material, but I have also used many other varieties of powdered crystals, and each has a different effect as Mahgister has pointed out elsewhere. The best I have found is a mixture of 12 crystal powders which I call Tutti Frutti.
After you have painted the layers onto sandpaper and dried the sheets in the sun, cut them into 30mm strips. Stick nanotape onto the reverse side of the strips (which can also contain layers). Don’t remove the protective film from the nanotape until you’re ready to apply the material to cables, chassis etc. The nanotape can be quite difficult to remove once stuck, so don’t use it on anything that could be damaged such as painted logos etc.
It would be easier to use barium titanate instead of lead zirconate titanate (PZT). You can get barium titanate on ebay in small quantities, but it’s much more difficult to source PZT which contains lead. Barium titanate is not as powerful as PZT but if you use a little more in the mix, it’s still quite good.
Shungite powder is almost pure carbon. You can source it from Russia via eBay, The seller is trustworthy, and I have dealt with them 3 times with no difficlties. But if you don’t want to order from Russia, you can use Ketjen carbon black with similar results. You can get that locally.
If you’re worried about playing around with graphene nanoparticles, you can also get graphene as a suspension (liquid). There’s no possibility of inhaling it. It works the same when mixed with PVA glue.
It’s also a good idea to mix some mica into the Part 1 mix. Synthetic mica and natural mica both work very well, and I use a bit of each sometimes.
You can isolate various ingredients into layers, which can increase the power of the final product. For example, if you mix PVA, graphene and (piezoelctric material of your choice), it works extremely well as a coating directly on a crystal layer (such as silicon carbide).
Finally, you can add various fine powdered crystal sands to the Part 1 or Part 2 mix. I use silicon carbide and aluminum oxide because they are very effective and very cheap ways to buy powdered crystal material, but I have also used many other varieties of powdered crystals, and each has a different effect as Mahgister has pointed out elsewhere. The best I have found is a mixture of 12 crystal powders which I call Tutti Frutti.
After you have painted the layers onto sandpaper and dried the sheets in the sun, cut them into 30mm strips. Stick nanotape onto the reverse side of the strips (which can also contain layers). Don’t remove the protective film from the nanotape until you’re ready to apply the material to cables, chassis etc. The nanotape can be quite difficult to remove once stuck, so don’t use it on anything that could be damaged such as painted logos etc.