The little writing about the nanotechnical polymer, and the abilities of that material.
This nanotechnical material would consist of two components, the wax, where are the nano-sized springs. And the primer, what contains the molecule-sized tweezers.
We might call this material as the real-life "Turtle Wax". It would be the polymer, which can be spread on the layer, and that thing is so easy to use, that it would be like waxing the car. But this material would give the layer extreme strength. The idea of this material is that there are nanotechnical springs in the polymer, and when the layer would be magnetized, all springs would turn to the same direction.
The nanomaterial gets its strength because it involves those nano-sized springs. At the end of those springs is an iron atom, what makes possible to put those springs in a certain direction. This means that, when the wax or nanotechnical polymer would put on the layer, the piece would be magnetized, and that makes those springs turn in the right direction, as I wrote earlier.
The idea is to benefit the magnet to turn the springs in the right position. And the molecule size tweezers could keep them in the right position after the magnet field is removed.
Because those springs would receive the hit, that would make the layer extreme hard. And that thing would give a change to avoid scratches of the automobile if that thing is parked in the place, where scratches are usual, but this material would be used to cover every layer, what wanted to cover.
The idea is that the magnet would be behind that layer, and the thing is that the spring could connect to the layer by some other ways that use magnets. This means that the molecule-sized springs would turn in the right direction, and then the paint, what might spread under the "turtle wax" would be equipped with the small, molecule-sized tweezers, what will touch to those springs, when they are in the right position. That would make sure, that the wax is stabilized on the layer.
This nanotechnical material would consist of two components, the wax, where are the nano-sized springs. And the primer, what contains the molecule-sized tweezers.
We might call this material as the real-life "Turtle Wax". It would be the polymer, which can be spread on the layer, and that thing is so easy to use, that it would be like waxing the car. But this material would give the layer extreme strength. The idea of this material is that there are nanotechnical springs in the polymer, and when the layer would be magnetized, all springs would turn to the same direction.
The nanomaterial gets its strength because it involves those nano-sized springs. At the end of those springs is an iron atom, what makes possible to put those springs in a certain direction. This means that, when the wax or nanotechnical polymer would put on the layer, the piece would be magnetized, and that makes those springs turn in the right direction, as I wrote earlier.
The idea is to benefit the magnet to turn the springs in the right position. And the molecule size tweezers could keep them in the right position after the magnet field is removed.
Because those springs would receive the hit, that would make the layer extreme hard. And that thing would give a change to avoid scratches of the automobile if that thing is parked in the place, where scratches are usual, but this material would be used to cover every layer, what wanted to cover.
The idea is that the magnet would be behind that layer, and the thing is that the spring could connect to the layer by some other ways that use magnets. This means that the molecule-sized springs would turn in the right direction, and then the paint, what might spread under the "turtle wax" would be equipped with the small, molecule-sized tweezers, what will touch to those springs, when they are in the right position. That would make sure, that the wax is stabilized on the layer.
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