Born Tech Mad

A day later, in the nanofactory, thousands of engineers and mechanics successfully assembled several nano production lines. to read

100 robots produced the nano-mixtures and entered the chemical pool. Under the soaking effect of plasma water, these mixed materials entered the dryer along with the water flow.

After the water is dried, the milky white nano mixture enters the 'sonic cell pulverizer', and the mixture and carbon nanotubes are scattered by strong frequency sound waves and turned into various dusts. These fans enter the vacuum channel tube and are crushed by static electricity. , were initially separated.

The dispersed single-walled carbon nanotubes enter the vacuum channel, and then undergo a 10-step process of sonic pulverization, and some of the most valuable nanopowders are produced. These nanopowders are pulverized single-walled carbon nanotubes.

The production line designed by Ross is very perfect, and the sonic pulverization technology is very good. After pulverization, the length and diameter of the nanopowder are 1o nanometers.

Due to its small size and strong performance, this nano-powder is a single body and can be mixed with most other substances.

Adding this nanopowder to the plastic becomes a nanoplastic, which arranges the atoms of the plastic in an atomic arrangement.

After the nano-powder enters the 'ion electrostatic machine', under the stimulation of the current, they will interlock and copy each other. Each tiny nano-powder, like tiny earrings, will automatically connect together to form pure nanofibers. , its performance is powerful enough to drive any country crazy.

The only production defect is that the nanomaterials are too light, and the production process must be in a vacuum state, because if there is no isolation, the airflow changes driven by robots or humans walking at a distance of more than ten meters are very difficult for these light nanomaterials. A hurricane will blow the nano powder into the air.

Any trace of air flow can instantly roll up millions of nano-powders and disperse them into the air. One breath of a person can roll up tens of millions of nano powders.

The pores of the human body are several kilometers wide lanes for these nanopowders, and they can easily penetrate into the human body. Affect any organ of the human body, once they enter the human body, ordinary treatment is ineffective, because they are only 10 times the size of an atom, and cannot be removed at all.

strictly speaking. The dangers of producing such powerful nanomaterials are terrible. Except for robots, humans are not suitable for production at all.

If this kind of nanopowder is used as a weapon and sprinkled from high altitude, it is enough to kill any living thing. Once they enter the living body, they will enter the cells, which can not only block the transmission of nerve information, but also affect the circulation of blood vessels. Even genes can block it, even powerful mutants can't resist the terrifying performance of this strong nanomaterial.

Ross couldn't help getting excited. 100 robots produced the nano-mixture, and 300 robots operated 3 production lines. After completing 300 processes, the produced pure nano-powder has reached 2 kg.

Looking at the 2 kilograms of nanopowder in the vacuum bottle, Ross was already excited and planned to make some nanofibers first.

Holding the vacuum bottle in his hand, Rose cautiously ran to the ion electrostatic machine. After starting the ion machine, after emitting a blue light, the inside is full of static electricity.

Ross opened the vacuum bottle and connected the straw to the ion electrostatic machine straw. Driven by the tiny airflow, the nanomaterials enter the electrostatic ionizer. Under the stimulation of static electricity, the nano-powders began to reorganize, and the six-ring-shaped nano-powders began to connect one by one to form fibers invisible to the naked eye.

One end of the ion electrostatic machine, in various nano-scale holes punched by lasers. Nanofibers that cannot be seen by the naked eye sprayed out one by one, and driven by the pulley, they spun crazily and got entangled on the pulley.

In a minute or so, Ross produced ten different nanofilaments.

The largest diameter reaches 1000 nanometers, which is equivalent to one 80th of the head, and the smallest diameter is 10000 nanometers, which is one 8000th of the head.

Ross dared not handle these nanofibers with his hands, because they are too small, and they are 300 times harder than steel, with strong elasticity and toughness. These fibers are extremely sharp, and if you take them with your hands, you may accidentally cut your fingers off.

Ross was worried that his fingers would be cut, so he glanced around. There was no one else except the robot. He quickly took off his clothes, and Ross turned into a green giant in seconds.

"Try how strong these nanofibers are."

Ross picked up the microscope, and only then could he see a fiber with a size of 1000 nanometers.

Stretching out his green giant fingers, Ross was afraid that the nanofibers would slip away, so he pinched one with brute force. After dragging for a hundred meters, Ross wrapped around each of the two giant arms and stretched out his strength to pull.

It may be that Hulk's power is too overbearing. The nanofiber broke at once, and Rose didn't feel how much force was used.

"Damn it! Let's test it with mechanical power, Hulk's power is too unscientific."

Ross picked up two steel rods made of 20 times special steel, and after a lot of effort, Ross tied a knot with the nanowire at both ends of the two steel rods.

With the power of the Hulk, Ross quickly returned to his normal state, and ran out of the factory with two steel rods.

Ross ordered the soldiers from the weapons factory to drive out two tanks. After a while, the tanks drove over. Ross inserted one end of two alloy rods into a tank, and asked the soldiers to start the tanks with all their strength, and run to the left and right to see if they could pull Cut off the fiber that is one-eighth the size of the head.

The two tanks started instantly, one left and one right rushing forward.

After the tanks were separated by a hundred meters, the nanofiber was straightened, and the two tanks made a loud bang, and the gas pedal was stepped on to the bottom, but the nanofiber was not broken.

"Damn! These two super tanks can pull objects weighing 100 tons, and they can't stop pulling this tiny nanofiber. It's amazing."

Ross excitedly took out two alloy rods, and found that the hard alloy rods were strangled with shallow marks.

"If you mix 8000 or 80 of these nanofibers together to make a filament-sized nanofiber, how strong will it be?"

The performance of the nanofibers met the requirements. Ross was so excited that he quickly ran back to the nanofactory, stood in front of the 'ion stator motor', and continued to manufacture nanofibers.

As long as the size of the nozzle hole is adjusted, nanofibers of various sizes can be produced. Combining nanofibers like twine creates thicker nanofibers that are more powerful.

Using this kind of fiber to make a piece of clothing, its bulletproof performance will be 10 to 100 times more powerful than ceramic body armor. Except for laser or sonic weapons, other weapons are almost ineffective.

Ross has reached a state of excitement, the ion electrostatic machine has hundreds of nozzles, and the nanofilaments sprayed out are entangled on the pulleys like spinning threads.

Because it is too small, tens of thousands of nanowires are wrapped around the pulley, and only a little bit like spider silk can be seen with the naked eye.

"With nanofibers and nanochips, we can make a battle suit like Spider-Man's. At that time, I'll get a set for Sister Li. Anyway, it won't take a few taels of nanofibers."

Ross was excited, so he simply called a few robots and directed them to turn on other ion electrostatic machines to make nanofibers. (To be continued.)

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