Nanocoating and Blow off on Metal Surfaces
By Fraz Frazzle
Nanocoating is the process of adding layers of carbon to the outside of a piece of matter. [ed. elevating the metallic atoms into more structured layers, and possibly involving some graphene layers]
The more the number of layers the better. The property of nanocoating is that it forms an insulation on metals that is non conductive superficially. But when DC current is applied it becomes super conductive in between the nano layers. When AC current is applied the current travels only in the layer between the matter state of the base metal and the first layer of nanocoating. In the case of AC current the nanocoating acts as an insulator similar to the non-conductive plastic coating found on household electrical wiring. Often you will see folks demonstrate this property by touching a nanocoated bare wire that has an Alternating Current running through it.
The main difference between a natural oxide coating on copper wire and nanocoated copper wire is while there is a thick layer of corrosion on the copper, it is still conductive to AC and you will get a nasty shock touching an AC charged wire that is simply corroded.
I will address nanocoating on other surfaces that are organic, crystalline, or non-conductive in a later article.
We can nanocoat metal using Caustic vapor steaming, by fire, by DC high voltage , dirty AC (multiple frequency including DC), fine gray wood ash in water (natural caustic) and one that has not been discussed yet - ion nanocoating that our team has perfected that takes weeks to several months. Depending on the material to be nanocoated different techniques are needed. Please practice each method because it is an art.
Blow off of nanocoating: the bane of Plasma device builders. Blow off happens when: A) The base metal is heated too much and expands during the nanocoating process, B) When the nanolayers are applied too quickly and thickly in the caustic steaming, C) When the metallic surface is bent, twisted, D) when touched or brushed when it is new, E) if the oil or shellac coating is not removed properly prior to nanocoating (usually the case in caustic method).
Proper nanocoating may look black or reddish brown, dull at first changing to almost waxy shiny when ready to GANSTM The color differences is due mostly to the refraction of light off of the nano surfaces. Oxides will have a much wider range of colors. Note: Use your multimeter to test conductivity (no conductivity with the multimeter means good nanocoating providing that it does not flake or blow off). Poorly done flame nanocoating and properly done caustic vapor nanocoating will result in a thick clumpy nanocoat. Properly done flame nanocoating, high voltage DC, and ion nanocoating produces many many layers of superfine nano layers.
Tricks in Nanocoating:
A) Our team hangs all nanocoated wires onto an earth ground wire. This wire is attached to a three meter grounding rod that is driven all but ten centimeters into the earths surface. If the nano coating blows off during this tempering stage it means the nanocoating was not properly done and the process has to be repeated or the metal rejected and used in the production of GANSTM.
B) Heating or burning the metal prior to caustic vapor to remove oils and shellac, C) Washing the metal with vinegar or acid prior nanocoating.
D) Most important, constructing the receiver “plug and play” connector end to the wire prior to nanocoating. This will be the end that plasma will flow into when this wire is added to your plasma device polarity is super important. NOTE: If you use the earth ground method the “plug and play” will not be the end attached to the earth ground! If you choose your shorter wire on your outer spring of a double coil to be the plug and play, this will allow you to use the longer wire to hang with. Remember that your plasma flows in opposite directions in your double spring coils so the inner plug and play will be on the other end than the outer. (you will thank me when you start assembly)
Damage and flaking of nano surfaces during assembly: Please wear either soft gloves or thin rubber gloves when handling nanocoated surfaces. Caustic steam nanocoated materials should be rinsed to remove excess caustic GANSTM dip in aqueous solution). Note: caustic will burn bare skin. We spray cold caustic solution to the connection points after assembly and on any part that got damaged, nano surfaces will repair themselves once assembled and given a DC charge. This is why we have a warmup period for each of the devices that may take several months prior to adding a heavy resistance load or amperage. This warm up period is most important in AC applications. Testing is being done on DC loads that are much much heavier on brand new devices. Remember DC charges build nanocoating onto surfaces faster.
Remember Nanocoating is an Art... PRACTICE ... PRACTICE.... PRACTICE!
Nanocoating is the process of adding layers of carbon to the outside of a piece of matter. [ed. elevating the metallic atoms into more structured layers, and possibly involving some graphene layers]
The more the number of layers the better. The property of nanocoating is that it forms an insulation on metals that is non conductive superficially. But when DC current is applied it becomes super conductive in between the nano layers. When AC current is applied the current travels only in the layer between the matter state of the base metal and the first layer of nanocoating. In the case of AC current the nanocoating acts as an insulator similar to the non-conductive plastic coating found on household electrical wiring. Often you will see folks demonstrate this property by touching a nanocoated bare wire that has an Alternating Current running through it.
The main difference between a natural oxide coating on copper wire and nanocoated copper wire is while there is a thick layer of corrosion on the copper, it is still conductive to AC and you will get a nasty shock touching an AC charged wire that is simply corroded.
I will address nanocoating on other surfaces that are organic, crystalline, or non-conductive in a later article.
We can nanocoat metal using Caustic vapor steaming, by fire, by DC high voltage , dirty AC (multiple frequency including DC), fine gray wood ash in water (natural caustic) and one that has not been discussed yet - ion nanocoating that our team has perfected that takes weeks to several months. Depending on the material to be nanocoated different techniques are needed. Please practice each method because it is an art.
Blow off of nanocoating: the bane of Plasma device builders. Blow off happens when: A) The base metal is heated too much and expands during the nanocoating process, B) When the nanolayers are applied too quickly and thickly in the caustic steaming, C) When the metallic surface is bent, twisted, D) when touched or brushed when it is new, E) if the oil or shellac coating is not removed properly prior to nanocoating (usually the case in caustic method).
Proper nanocoating may look black or reddish brown, dull at first changing to almost waxy shiny when ready to GANSTM The color differences is due mostly to the refraction of light off of the nano surfaces. Oxides will have a much wider range of colors. Note: Use your multimeter to test conductivity (no conductivity with the multimeter means good nanocoating providing that it does not flake or blow off). Poorly done flame nanocoating and properly done caustic vapor nanocoating will result in a thick clumpy nanocoat. Properly done flame nanocoating, high voltage DC, and ion nanocoating produces many many layers of superfine nano layers.
Tricks in Nanocoating:
A) Our team hangs all nanocoated wires onto an earth ground wire. This wire is attached to a three meter grounding rod that is driven all but ten centimeters into the earths surface. If the nano coating blows off during this tempering stage it means the nanocoating was not properly done and the process has to be repeated or the metal rejected and used in the production of GANSTM.
B) Heating or burning the metal prior to caustic vapor to remove oils and shellac, C) Washing the metal with vinegar or acid prior nanocoating.
D) Most important, constructing the receiver “plug and play” connector end to the wire prior to nanocoating. This will be the end that plasma will flow into when this wire is added to your plasma device polarity is super important. NOTE: If you use the earth ground method the “plug and play” will not be the end attached to the earth ground! If you choose your shorter wire on your outer spring of a double coil to be the plug and play, this will allow you to use the longer wire to hang with. Remember that your plasma flows in opposite directions in your double spring coils so the inner plug and play will be on the other end than the outer. (you will thank me when you start assembly)
Damage and flaking of nano surfaces during assembly: Please wear either soft gloves or thin rubber gloves when handling nanocoated surfaces. Caustic steam nanocoated materials should be rinsed to remove excess caustic GANSTM dip in aqueous solution). Note: caustic will burn bare skin. We spray cold caustic solution to the connection points after assembly and on any part that got damaged, nano surfaces will repair themselves once assembled and given a DC charge. This is why we have a warmup period for each of the devices that may take several months prior to adding a heavy resistance load or amperage. This warm up period is most important in AC applications. Testing is being done on DC loads that are much much heavier on brand new devices. Remember DC charges build nanocoating onto surfaces faster.
Remember Nanocoating is an Art... PRACTICE ... PRACTICE.... PRACTICE!